Modules

Salt modules are the functions called by the salt command.

See also

Full list of builtin modules

Salt ships with many modules that cover a wide variety of tasks.

Modules Are Easy to Write!

Salt modules are amazingly simple to write. Just write a regular Python module or a regular Cython module and place it a directory called _modules/ within the file_roots specified by the master config file, and they will be synced to the minions when state.highstate is run, or by executing the saltutil.sync_modules or saltutil.sync_all functions.

Any custom modules which have been synced to a minion, that are named the same as one of Salt's default set of modules, will take the place of the default module with the same name. Note that a module's default name is its filename (i.e. foo.py becomes module foo), but that its name can be overridden by using a __virtual__ function.

Since Salt modules are just Python/Cython modules, there are no restraints on what you can put inside of a Salt module. If a Salt module has errors and cannot be imported, the Salt minion will continue to load without issue and the module with errors will simply be omitted.

If adding a Cython module the file must be named <modulename>.pyx so that the loader knows that the module needs to be imported as a Cython module. The compilation of the Cython module is automatic and happens when the minion starts, so only the *.pyx file is required.

Cross Calling Modules

All of the Salt modules are available to each other, and can be "cross called". This means that, when creating a module, functions in modules that already exist can be called.

The variable __salt__ is packed into the modules after they are loaded into the Salt minion. This variable is a Python dictionary of all of the Salt functions, laid out in the same way that they are made available to the Salt command.

Salt modules can be cross called by accessing the value in the __salt__ dict:

def foo(bar):
    return __salt__['cmd.run'](bar)

This code will call the Salt cmd module's run function and pass the argument bar.

Preloaded Modules Data

When interacting with modules often it is nice to be able to read information dynamically about the minion, or load in configuration parameters for a module. Salt allows for different types of data to be loaded into the modules by the minion, as of this writing Salt loads information gathered from the Salt Grains system and from the minion configuration file.

Grains Data

The Salt minion detects information about the system when started. This allows for modules to be written dynamically with respect to the underlying hardware and operating system. This information is referred to as Salt Grains, or "grains of salt". The Grains system was introduced to replace Facter, since relying on a Ruby application from a Python application was both slow and inefficient. Grains support replaces Facter in all Salt releases after 0.8

The values detected by the Salt Grains on the minion are available in a dict named __grains__ and can be accessed from within callable objects in the Python modules.

To see the contents of the grains dict for a given system in your deployment run the grains.items() function:

salt 'hostname' grains.items

To use the __grains__ dict simply call it as a Python dict from within your code, an excellent example is available in the Grains module: salt.modules.grains.

Module Configuration

Since parameters for configuring a module may be desired, Salt allows for configuration information stored in the main minion config file to be passed to the modules.

Since the minion configuration file is a YAML document, arbitrary configuration data can be passed in the minion config that is read by the modules. It is strongly recommended that the values passed in the configuration file match the module. This means that a value intended for the test module should be named test.<value>.

Configuration also requires that default configuration parameters need to be loaded as well. This can be done simply by adding the __opts__ dict to the top level of the module.

The test module contains usage of the module configuration, and the default configuration file for the minion contains the information and format used to pass data to the modules. salt.modules.test, conf/minion.

Printout Configuration

Since module functions can return different data, and the way the data is printed can greatly change the presentation, Salt has a printout configuration.

When writing a module the __outputter__ dict can be declared in the module. The __outputter__ dict contains a mapping of function name to Salt Outputter.

__outputter__ = {
                'run': 'txt'
                }

This will ensure that the text outputter is used.

Virtual Modules

Sometimes a module should be presented in a generic way. A good example of this can be found in the package manager modules. The package manager changes from one operating system to another, but the Salt module that interfaces with the package manager can be presented in a generic way.

The Salt modules for package managers all contain a __virtual__ function which is called to define what systems the module should be loaded on.

The __virtual__ function is used to return either a string or False. If False is returned then the module is not loaded, if a string is returned then the module is loaded with the name of the string.

This means that the package manager modules can be presented as the pkg module regardless of what the actual module is named.

The package manager modules are the best example of using the __virtual__ function: https://github.com/saltstack/salt/blob/develop/salt/modules/pacman.py https://github.com/saltstack/salt/blob/develop/salt/modules/yumpkg.py https://github.com/saltstack/salt/blob/develop/salt/modules/apt.py

Documentation

Salt modules are self documenting, the sys.doc() function will return the documentation for all available modules:

salt '*' sys.doc

This function simply prints out the docstrings found in the modules; when writing Salt modules, please follow the formatting conventions for docstrings as they appear in the other modules.

Adding Documentation to Salt Modules

Since life is much better with documentation, it is strongly suggested that all Salt modules have documentation added. Any Salt modules submitted for inclusion in the main distribution of Salt will be required to have documentation.

Documenting Salt modules is easy! Just add a Python docstring to the function.

def spam(eggs):
    '''
    A function to make some spam with eggs!

    CLI Example::

        salt '*' test.spam eggs
    '''
    return eggs

Now when the sys.doc call is executed the docstring will be cleanly returned to the calling terminal.

Add Module metadata

Add information about the module using the following field lists:

:maintainer:    Thomas Hatch <thatch@saltstack.com, Seth House <shouse@saltstack.com>
:maturity:      new
:depends:       python-mysqldb
:platform:      all

The maintainer field is a comma-delimited list of developers who help maintain this module.

The maturity field indicates the level of quality and testing for this module. Standard labels will be determined.

The depends field is a comma-delimited list of modules that this module depends on.

The platform field is a comma-delimited list of platforms that this module is known to run on.

How Functions are Read

In Salt, Python callable objects contained within a module are made available to the Salt minion for use. The only exception to this rule is a callable object with a name starting with an underscore _.

Objects Loaded Into the Salt Minion

def foo(bar):
    return bar

class baz:
    def __init__(self, quo):
        pass

Objects NOT Loaded into the Salt Minion

def _foobar(baz): # Preceded with an _
    return baz

cheese = {} # Not a callable Python object

Useful Decorators for Modules

Sometimes when writing modules for large scale deployments you run into some small things that end up severely complicating the code. To alleviate some of this pain Salt has some useful decorators for use within modules!

Depends Decorator

When writing custom modules there are many times where some of the module will work on all hosts, but some functions require (for example) a service to be installed. Instead of trying to wrap much of the code in large try/except blocks you can use a simple decorator to do this. If the dependencies passed to the decorator don't exist, then the salt minion will remove those functions from the module on that host. If a "fallback_funcion" is defined, it will replace the function instead of removing it

from salt.utils.decorators import depends
try:
    import dependency_that_sometimes_exists
except ImportError:
    pass

@depends('dependency_that_sometimes_exists')
def foo():
    '''
    Function with a dependency on the "dependency_that_sometimes_exists" module,
    if the "dependency_that_sometimes_exists" is missing this function will not exist
    '''
    return True

def _fallback():
    '''
    Fallback function for the depends decorator to replace a function with
    '''
    return '"dependency_that_sometimes_exists" needs to be installed for this function to exist'

@depends('dependency_that_sometimes_exists', fallback_funcion=_fallback)
def foo():
    '''
    Function with a dependency on the "dependency_that_sometimes_exists" module.
    If the "dependency_that_sometimes_exists" is missing this function will be
    replaced with "_fallback"
    '''
    return True

Examples of Salt Modules

The existing Salt modules should be fairly easy to read and understand, the goal of the main distribution's Salt modules is not only to build a set of functions for Salt, but to stand as examples for building out more Salt modules.

The existing modules can be found here: https://github.com/saltstack/salt/blob/develop/salt/modules

The most simple module is the test module, it contains the simplest Salt function, test.ping:

def ping():
    '''
    Just used to make sure the minion is up and responding
    Return True

    CLI Example::

        salt '*' test.ping
    '''
    return True