Simple and flexible YAML ext_pillar which can read pillar from within pillar.
New in version 2016.3.0.
PillarStack is a custom saltstack
ext_pillar
which was inspired by varstack but is heavily based on Jinja2 for
maximum flexibility.
Any issue should be reported to the upstream project at: https://github.com/bbinet/pillarstack/issues
It supports the following features:
multiple config files that are jinja2 templates with support for pillar
,
__grains__
, __salt__
, __opts__
objects
a config file renders as an ordered list of files (paths of these files are relative to the current config file)
this list of files are read in ordered as jinja2 templates with support for
stack
, pillar
, __grains__
, __salt__
, __opts__
objects
all these rendered files are then parsed as yaml
then all yaml dicts are merged in order with support for the following
merging strategies: merge-first
, merge-last
, remove
, and
overwrite
stack config files can be matched based on pillar
, grains
, or
opts
values, which make it possible to support kind of self-contained
environments
PillarStack is already bundled with Salt since 2016.3.0 version so there is nothing to install from version 2016.3.0.
If you use an older Salt version or you want to override PillarStack with a more recent one, follow the installation procedure below.
Installing the PillarStack ext_pillar
is as simple as dropping the
stack.py
file in the <extension_modules>/pillar
directory (no external
python module required), given that extension_modules
is set in your
salt-master configuration, see:
http://docs.saltstack.com/en/latest/ref/configuration/master.html#extension-modules
Like any other external pillar, its configuration takes place through the
ext_pillar
key in the master config file.
However, you can configure PillarStack in 3 different ways:
This is the simplest option, you just need to set the path to your single PillarStack config file like below:
ext_pillar:
- stack: /path/to/stack.cfg
You can also provide a list of config files:
ext_pillar:
- stack:
- /path/to/stack1.cfg
- /path/to/stack2.cfg
You can also opt for a much more flexible configuration: PillarStack allows one to select the config files for the current minion based on matching values from either grains, or pillar, or opts objects.
Here is an example of such a configuration, which should speak by itself:
ext_pillar:
- stack:
pillar:environment:
dev: /path/to/dev/stack.cfg
prod: /path/to/prod/stack.cfg
grains:custom:grain:
value:
- /path/to/stack1.cfg
- /path/to/stack2.cfg
opts:custom:opt:
value: /path/to/stack0.cfg
The config files that are referenced in the above ext_pillar
configuration
are jinja2 templates which must render as a simple ordered list of yaml
files that will then be merged to build pillar data.
The path of these yaml
files must be relative to the directory of the
PillarStack config file. These paths support unix style pathname pattern
expansion through the
Python glob module <https://docs.python.org/2/library/glob.html>.
The following variables are available in jinja2 templating of PillarStack configuration files:
pillar
: the pillar data (as passed by Salt to our ext_pillar
function)
minion_id
: the minion id ;-)
__opts__
: a dictionary of mostly Salt configuration options
__grains__
: a dictionary of the grains of the minion making this pillar
call
__salt__
: a dictionary of Salt module functions, useful so you don't have
to duplicate functions that already exist (note: runs on the master)
So you can use all the power of jinja2 to build your list of yaml
files
that will be merged in pillar data.
For example, you could have a PillarStack config file which looks like:
$ cat /path/to/stack/config.cfg
core.yml
common/*.yml
osarchs/{{ __grains__['osarch'] }}.yml
oscodenames/{{ __grains__['oscodename'] }}.yml
{%- for role in pillar.get('roles', []) %}
roles/{{ role }}.yml
{%- endfor %}
minions/{{ minion_id }}.yml
And the whole directory structure could look like:
$ tree /path/to/stack/
/path/to/stack/
├── config.cfg
├── core.yml
├── common/
│ ├── xxx.yml
│ └── yyy.yml
├── osarchs/
│ ├── amd64.yml
│ └── armhf.yml
├── oscodenames/
│ ├── wheezy.yml
│ └── jessie.yml
├── roles/
│ ├── web.yml
│ └── db.yml
└── minions/
├── test-1-dev.yml
└── test-2-dev.yml
In the above PillarStack configuration, given that test-1-dev minion is an
amd64 platform running Debian Jessie, and which pillar roles
is ["db"]
,
the following yaml
files would be merged in order:
core.yml
common/xxx.yml
common/yyy.yml
osarchs/amd64.yml
oscodenames/jessie.yml
roles/db.yml
minions/test-1-dev.yml
Before merging, every files above will be preprocessed as Jinja2 templates.
The following variables are available in Jinja2 templating of yaml
files:
stack
: the PillarStack pillar data object that has currently been merged
(data from previous yaml
files in PillarStack configuration)
pillar
: the pillar data (as passed by Salt to our ext_pillar
function)
minion_id
: the minion id ;-)
__opts__
: a dictionary of mostly Salt configuration options
__grains__
: a dictionary of the grains of the minion making this pillar
call
__salt__
: a dictionary of Salt module functions, useful so you don't have
to duplicate functions that already exist (note: runs on the master)
So you can use all the power of jinja2 to build your pillar data, and even use
other pillar values that has already been merged by PillarStack (from previous
yaml
files in PillarStack configuration) through the stack
variable.
Once a yaml
file has been preprocessed by Jinja2, we obtain a Python dict -
let's call it yml_data
- then, PillarStack will merge this yml_data
dict in the main stack
dict (which contains already merged PillarStack
pillar data).
By default, PillarStack will deeply merge yml_data
in stack
(similarly
to the recurse
salt pillar_source_merging_strategy
), but 3 merging
strategies are currently available for you to choose (see next section).
Once every yaml
files have been processed, the stack
dict will contain
your whole own pillar data, merged in order by PillarStack.
So PillarStack ext_pillar
returns the stack
dict, the contents of which
Salt takes care to merge in with all of the other pillars and finally return
the whole pillar to the minion.
The way the data from a new yaml_data
dict is merged with the existing
stack
data can be controlled by specifying a merging strategy. Right now
this strategy can either be merge-last
(the default), merge-first
,
remove
, or overwrite
.
Note that scalar values like strings, integers, booleans, etc. are always
evaluated using the overwrite
strategy (other strategies don't make sense
in that case).
The merging strategy can be set by including a dict in the form of:
__: <merging strategy>
as the first item of the dict or list. This allows fine grained control over the merging process.
merge-last
(default) strategy¶If the merge-last
strategy is selected (the default), then content of dict
or list variables is merged recursively with previous definitions of this
variable (similarly to the recurse
salt
pillar_source_merging_strategy
).
This allows for extending previously defined data.
merge-first
strategy¶If the merge-first
strategy is selected, then the content of dict or list
variables are swapped between the yaml_data
and stack
objects before
being merged recursively with the merge-last
previous strategy.
remove
strategy¶If the remove
strategy is selected, then content of dict or list variables
in stack
are removed only if the corresponding item is present in the
yaml_data
dict.
This allows for removing items from previously defined data.
overwrite
strategy¶If the overwrite
strategy is selected, then the content of dict or list
variables in stack
is overwritten by the content of yaml_data
dict.
So this allows one to overwrite variables from previous definitions.
Let's go through small examples that should clarify what's going on when a
yaml_data
dict is merged in the stack
dict.
When you don't specify any strategy, the default merge-last
strategy is
selected:
|
|
|
---|---|---|
users:
tom:
uid: 500
roles:
- sysadmin
root:
uid: 0
|
users:
tom:
uid: 1000
roles:
- developer
mat:
uid: 1001
|
users:
tom:
uid: 1000
roles:
- sysadmin
- developer
mat:
uid: 1001
root:
uid: 0
|
Then you can select a custom merging strategy using the __
key in a dict:
|
|
|
---|---|---|
users:
tom:
uid: 500
roles:
- sysadmin
root:
uid: 0
|
users:
__: merge-last
tom:
uid: 1000
roles:
- developer
mat:
uid: 1001
|
users:
tom:
uid: 1000
roles:
- sysadmin
- developer
mat:
uid: 1001
root:
uid: 0
|
users:
tom:
uid: 500
roles:
- sysadmin
root:
uid: 0
|
users:
__: merge-first
tom:
uid: 1000
roles:
- developer
mat:
uid: 1001
|
users:
tom:
uid: 500
roles:
- developer
- sysadmin
mat:
uid: 1001
root:
uid: 0
|
users:
tom:
uid: 500
roles:
- sysadmin
root:
uid: 0
|
users:
__: remove
tom:
mat:
|
users:
root:
uid: 0
|
users:
tom:
uid: 500
roles:
- sysadmin
root:
uid: 0
|
users:
__: overwrite
tom:
uid: 1000
roles:
- developer
mat:
uid: 1001
|
users:
tom:
uid: 1000
roles:
- developer
mat:
uid: 1001
|
You can also select a custom merging strategy using a __
object in a list:
|
|
|
---|---|---|
users:
- tom
- root
|
users:
- __: merge-last
- mat
|
users:
- tom
- root
- mat
|
users:
- tom
- root
|
users:
- __: merge-first
- mat
|
users:
- mat
- tom
- root
|
users:
- tom
- root
|
users:
- __: remove
- mat
- tom
|
users:
- root
|
users:
- tom
- root
|
users:
- __: overwrite
- mat
|
users:
- mat
|
salt.pillar.stack.
ext_pillar
(minion_id, pillar, *args, **kwargs)¶