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- .. _pillar:
- =================================
- Storing Static Data in the Pillar
- =================================
- Pillar is an interface for Salt designed to offer global values that can be
- distributed to minions. Pillar data is managed in a similar way as
- the Salt State Tree.
- Pillar was added to Salt in version 0.9.8
- .. note:: Storing sensitive data
- Pillar data is compiled on the master. Additionally, pillar data for a
- given minion is only accessible by the minion for which it is targeted in
- the pillar configuration. This makes pillar useful for storing sensitive
- data specific to a particular minion.
- Declaring the Master Pillar
- ===========================
- The Salt Master server maintains a :conf_master:`pillar_roots` setup that
- matches the structure of the :conf_master:`file_roots` used in the Salt file
- server. Like :conf_master:`file_roots`, the :conf_master:`pillar_roots` option
- maps environments to directories. The pillar data is then mapped to minions
- based on matchers in a top file which is laid out in the same way as the state
- top file. Salt pillars can use the same matcher types as the standard :ref:`top
- file <states-top>`.
- conf_master:`pillar_roots` is configured just like :conf_master:`file_roots`.
- For example:
- .. code-block:: yaml
- pillar_roots:
- base:
- - /srv/pillar
- This example configuration declares that the base environment will be located
- in the ``/srv/pillar`` directory. It must not be in a subdirectory of the
- state tree.
- The top file used matches the name of the top file used for States,
- and has the same structure:
- ``/srv/pillar/top.sls``
- .. code-block:: yaml
- base:
- '*':
- - packages
- In the above top file, it is declared that in the ``base`` environment, the
- glob matching all minions will have the pillar data found in the ``packages``
- pillar available to it. Assuming the ``pillar_roots`` value of ``/srv/pillar``
- taken from above, the ``packages`` pillar would be located at
- ``/srv/pillar/packages.sls``.
- Any number of matchers can be added to the base environment. For example, here
- is an expanded version of the Pillar top file stated above:
- /srv/pillar/top.sls:
- .. code-block:: yaml
- base:
- '*':
- - packages
- 'web*':
- - vim
- In this expanded top file, minions that match ``web*`` will have access to the
- ``/srv/pillar/packages.sls`` file, as well as the ``/srv/pillar/vim.sls`` file.
- Another example shows how to use other standard top matching types
- to deliver specific salt pillar data to minions with different properties.
- Here is an example using the ``grains`` matcher to target pillars to minions
- by their ``os`` grain:
- .. code-block:: yaml
- dev:
- 'os:Debian':
- - match: grain
- - servers
- ``/srv/pillar/packages.sls``
- .. code-block:: jinja
- {% if grains['os'] == 'RedHat' %}
- apache: httpd
- git: git
- {% elif grains['os'] == 'Debian' %}
- apache: apache2
- git: git-core
- {% endif %}
- company: Foo Industries
- .. important::
- See :ref:`Is Targeting using Grain Data Secure? <faq-grain-security>` for
- important security information.
- The above pillar sets two key/value pairs. If a minion is running RedHat, then
- the ``apache`` key is set to ``httpd`` and the ``git`` key is set to the value
- of ``git``. If the minion is running Debian, those values are changed to
- ``apache2`` and ``git-core`` respectively. All minions that have this pillar
- targeting to them via a top file will have the key of ``company`` with a value
- of ``Foo Industries``.
- Consequently this data can be used from within modules, renderers, State SLS
- files, and more via the shared pillar dictionary:
- .. code-block:: jinja
- apache:
- pkg.installed:
- - name: {{ pillar['apache'] }}
- .. code-block:: jinja
- git:
- pkg.installed:
- - name: {{ pillar['git'] }}
- Finally, the above states can utilize the values provided to them via Pillar.
- All pillar values targeted to a minion are available via the 'pillar'
- dictionary. As seen in the above example, Jinja substitution can then be
- utilized to access the keys and values in the Pillar dictionary.
- Note that you cannot just list key/value-information in ``top.sls``. Instead,
- target a minion to a pillar file and then list the keys and values in the
- pillar. Here is an example top file that illustrates this point:
- .. code-block:: yaml
- base:
- '*':
- - common_pillar
- And the actual pillar file at '/srv/pillar/common_pillar.sls':
- .. code-block:: yaml
- foo: bar
- boo: baz
- .. note::
- When working with multiple pillar environments, assuming that each pillar
- environment has its own top file, the jinja placeholder ``{{ saltenv }}``
- can be used in place of the environment name:
- .. code-block:: jinja
- {{ saltenv }}:
- '*':
- - common_pillar
- Yes, this is ``{{ saltenv }}``, and not ``{{ pillarenv }}``. The reason for
- this is because the Pillar top files are parsed using some of the same code
- which parses top files when :ref:`running states <running-highstate>`, so
- the pillar environment takes the place of ``{{ saltenv }}`` in the jinja
- context.
- Dynamic Pillar Environments
- ===========================
- If environment ``__env__`` is specified in :conf_master:`pillar_roots`, all
- environments that are not explicitly specified in :conf_master:`pillar_roots`
- will map to the directories from ``__env__``. This allows one to use dynamic
- git branch based environments for state/pillar files with the same file-based
- pillar applying to all environments. For example:
- .. code-block:: yaml
- pillar_roots:
- __env__:
- - /srv/pillar
- ext_pillar:
- - git:
- - __env__ https://example.com/git-pillar.git
- .. versionadded:: 2017.7.5,2018.3.1
- Pillar Namespace Flattening
- ===========================
- The separate pillar SLS files all merge down into a single dictionary of
- key-value pairs. When the same key is defined in multiple SLS files, this can
- result in unexpected behavior if care is not taken to how the pillar SLS files
- are laid out.
- For example, given a ``top.sls`` containing the following:
- .. code-block:: yaml
- base:
- '*':
- - packages
- - services
- with ``packages.sls`` containing:
- .. code-block:: yaml
- bind: bind9
- and ``services.sls`` containing:
- .. code-block:: yaml
- bind: named
- Then a request for the ``bind`` pillar key will only return ``named``. The
- ``bind9`` value will be lost, because ``services.sls`` was evaluated later.
- .. note::
- Pillar files are applied in the order they are listed in the top file.
- Therefore conflicting keys will be overwritten in a 'last one wins' manner!
- For example, in the above scenario conflicting key values in ``services``
- will overwrite those in ``packages`` because it's at the bottom of the list.
- It can be better to structure your pillar files with more hierarchy. For
- example the ``package.sls`` file could be configured like so:
- .. code-block:: yaml
- packages:
- bind: bind9
- This would make the ``packages`` pillar key a nested dictionary containing a
- ``bind`` key.
- Pillar Dictionary Merging
- =========================
- If the same pillar key is defined in multiple pillar SLS files, and the keys in
- both files refer to nested dictionaries, then the content from these
- dictionaries will be recursively merged.
- For example, keeping the ``top.sls`` the same, assume the following
- modifications to the pillar SLS files:
- ``packages.sls``:
- .. code-block:: yaml
- bind:
- package-name: bind9
- version: 9.9.5
- ``services.sls``:
- .. code-block:: yaml
- bind:
- port: 53
- listen-on: any
- The resulting pillar dictionary will be:
- .. code-block:: bash
- $ salt-call pillar.get bind
- local:
- ----------
- listen-on:
- any
- package-name:
- bind9
- port:
- 53
- version:
- 9.9.5
- Since both pillar SLS files contained a ``bind`` key which contained a nested
- dictionary, the pillar dictionary's ``bind`` key contains the combined contents
- of both SLS files' ``bind`` keys.
- .. _pillar-include:
- Including Other Pillars
- =======================
- .. versionadded:: 0.16.0
- Pillar SLS files may include other pillar files, similar to State files. Two
- syntaxes are available for this purpose. The simple form simply includes the
- additional pillar as if it were part of the same file:
- .. code-block:: yaml
- include:
- - users
- The full include form allows two additional options -- passing default values
- to the templating engine for the included pillar file as well as an optional
- key under which to nest the results of the included pillar:
- .. code-block:: yaml
- include:
- - users:
- defaults:
- sudo: ['bob', 'paul']
- key: users
- With this form, the included file (users.sls) will be nested within the 'users'
- key of the compiled pillar. Additionally, the 'sudo' value will be available
- as a template variable to users.sls.
- .. _pillar-in-memory:
- In-Memory Pillar Data vs. On-Demand Pillar Data
- ===============================================
- Since compiling pillar data is computationally expensive, the minion will
- maintain a copy of the pillar data in memory to avoid needing to ask the master
- to recompile and send it a copy of the pillar data each time pillar data is
- requested. This in-memory pillar data is what is returned by the
- :py:func:`pillar.item <salt.modules.pillar.item>`, :py:func:`pillar.get
- <salt.modules.pillar.get>`, and :py:func:`pillar.raw <salt.modules.pillar.raw>`
- functions.
- Also, for those writing custom execution modules, or contributing to Salt's
- existing execution modules, the in-memory pillar data is available as the
- ``__pillar__`` dunder dictionary.
- The in-memory pillar data is generated on minion start, and can be refreshed
- using the :py:func:`saltutil.refresh_pillar
- <salt.modules.saltutil.refresh_pillar>` function:
- .. code-block:: bash
- salt '*' saltutil.refresh_pillar
- This function triggers the minion to asynchronously refresh the in-memory
- pillar data and will always return ``None``.
- In contrast to in-memory pillar data, certain actions trigger pillar data to be
- compiled to ensure that the most up-to-date pillar data is available. These
- actions include:
- - Running states
- - Running :py:func:`pillar.items <salt.modules.pillar.items>`
- Performing these actions will *not* refresh the in-memory pillar data. So, if
- pillar data is modified, and then states are run, the states will see the
- updated pillar data, but :py:func:`pillar.item <salt.modules.pillar.item>`,
- :py:func:`pillar.get <salt.modules.pillar.get>`, and :py:func:`pillar.raw
- <salt.modules.pillar.raw>` will not see this data unless refreshed using
- :py:func:`saltutil.refresh_pillar <salt.modules.saltutil.refresh_pillar>`.
- .. _pillar-environments:
- How Pillar Environments Are Handled
- ===================================
- When multiple pillar environments are used, the default behavior is for the
- pillar data from all environments to be merged together. The pillar dictionary
- will therefore contain keys from all configured environments.
- The :conf_minion:`pillarenv` minion config option can be used to force the
- minion to only consider pillar configuration from a single environment. This
- can be useful in cases where one needs to run states with alternate pillar
- data, either in a testing/QA environment or to test changes to the pillar data
- before pushing them live.
- For example, assume that the following is set in the minion config file:
- .. code-block:: yaml
- pillarenv: base
- This would cause that minion to ignore all other pillar environments besides
- ``base`` when compiling the in-memory pillar data. Then, when running states,
- the ``pillarenv`` CLI argument can be used to override the minion's
- :conf_minion:`pillarenv` config value:
- .. code-block:: bash
- salt '*' state.apply mystates pillarenv=testing
- The above command will run the states with pillar data sourced exclusively from
- the ``testing`` environment, without modifying the in-memory pillar data.
- .. note::
- When running states, the ``pillarenv`` CLI option does not require a
- :conf_minion:`pillarenv` option to be set in the minion config file. When
- :conf_minion:`pillarenv` is left unset, as mentioned above all configured
- environments will be combined. Running states with ``pillarenv=testing`` in
- this case would still restrict the states' pillar data to just that of the
- ``testing`` pillar environment.
- Starting in the 2017.7.0 release, it is possible to pin the pillarenv to the
- effective saltenv, using the :conf_minion:`pillarenv_from_saltenv` minion
- config option. When this is set to ``True``, if a specific saltenv is specified
- when running states, the ``pillarenv`` will be the same. This essentially makes
- the following two commands equivalent:
- .. code-block:: bash
- salt '*' state.apply mystates saltenv=dev
- salt '*' state.apply mystates saltenv=dev pillarenv=dev
- However, if a pillarenv is specified, it will override this behavior. So, the
- following command will use the ``qa`` pillar environment but source the SLS
- files from the ``dev`` saltenv:
- .. code-block:: bash
- salt '*' state.apply mystates saltenv=dev pillarenv=qa
- So, if a ``pillarenv`` is set in the minion config file,
- :conf_minion:`pillarenv_from_saltenv` will be ignored, and passing a
- ``pillarenv`` on the CLI will temporarily override
- :conf_minion:`pillarenv_from_saltenv`.
- Viewing Pillar Data
- ===================
- To view pillar data, use the :mod:`pillar <salt.modules.pillar>` execution
- module. This module includes several functions, each of them with their own
- use. These functions include:
- - :py:func:`pillar.item <salt.modules.pillar.item>` - Retrieves the value of
- one or more keys from the :ref:`in-memory pillar datj <pillar-in-memory>`.
- - :py:func:`pillar.items <salt.modules.pillar.items>` - Compiles a fresh pillar
- dictionary and returns it, leaving the :ref:`in-memory pillar data
- <pillar-in-memory>` untouched. If pillar keys are passed to this function
- however, this function acts like :py:func:`pillar.item
- <salt.modules.pillar.item>` and returns their values from the :ref:`in-memory
- pillar data <pillar-in-memory>`.
- - :py:func:`pillar.raw <salt.modules.pillar.raw>` - Like :py:func:`pillar.items
- <salt.modules.pillar.items>`, it returns the entire pillar dictionary, but
- from the :ref:`in-memory pillar data <pillar-in-memory>` instead of compiling
- fresh pillar data.
- - :py:func:`pillar.get <salt.modules.pillar.get>` - Described in detail below.
- The :py:func:`pillar.get <salt.modules.pillar.get>` Function
- ============================================================
- .. versionadded:: 0.14.0
- The :mod:`pillar.get <salt.modules.pillar.get>` function works much in the same
- way as the ``get`` method in a python dict, but with an enhancement: nested
- dictonaries can be traversed using a colon as a delimiter.
- If a structure like this is in pillar:
- .. code-block:: yaml
- foo:
- bar:
- baz: qux
- Extracting it from the raw pillar in an sls formula or file template is done
- this way:
- .. code-block:: jinja
- {{ pillar['foo']['bar']['baz'] }}
- Now, with the new :mod:`pillar.get <salt.modules.pillar.get>` function the data
- can be safely gathered and a default can be set, allowing the template to fall
- back if the value is not available:
- .. code-block:: jinja
- {{ salt['pillar.get']('foo:bar:baz', 'qux') }}
- This makes handling nested structures much easier.
- .. note:: ``pillar.get()`` vs ``salt['pillar.get']()``
- It should be noted that within templating, the ``pillar`` variable is just
- a dictionary. This means that calling ``pillar.get()`` inside of a
- template will just use the default dictionary ``.get()`` function which
- does not include the extra ``:`` delimiter functionality. It must be
- called using the above syntax (``salt['pillar.get']('foo:bar:baz',
- 'qux')``) to get the salt function, instead of the default dictionary
- behavior.
- Setting Pillar Data at the Command Line
- =======================================
- Pillar data can be set at the command line like the following example:
- .. code-block:: bash
- salt '*' state.apply pillar='{"cheese": "spam"}'
- This will add a pillar key of ``cheese`` with its value set to ``spam``.
- .. note::
- Be aware that when sending sensitive data via pillar on the command-line
- that the publication containing that data will be received by all minions
- and will not be restricted to the targeted minions. This may represent
- a security concern in some cases.
- .. _pillar-encryption:
- Pillar Encryption
- =================
- Salt's renderer system can be used to decrypt pillar data. This allows for
- pillar items to be stored in an encrypted state, and decrypted during pillar
- compilation.
- Encrypted Pillar SLS
- --------------------
- .. versionadded:: 2017.7.0
- Consider the following pillar SLS file:
- .. code-block:: yaml
- secrets:
- vault:
- foo: |
- -----BEGIN PGP MESSAGE-----
- hQEMAw2B674HRhwSAQgAhTrN8NizwUv/VunVrqa4/X8t6EUulrnhKcSeb8sZS4th
- W1Qz3K2NjL4lkUHCQHKZVx/VoZY7zsddBIFvvoGGfj8+2wjkEDwFmFjGE4DEsS74
- ZLRFIFJC1iB/O0AiQ+oU745skQkU6OEKxqavmKMrKo3rvJ8ZCXDC470+i2/Hqrp7
- +KWGmaDOO422JaSKRm5D9bQZr9oX7KqnrPG9I1+UbJyQSJdsdtquPWmeIpamEVHb
- VMDNQRjSezZ1yKC4kCWm3YQbBF76qTHzG1VlLF5qOzuGI9VkyvlMaLfMibriqY73
- zBbPzf6Bkp2+Y9qyzuveYMmwS4sEOuZL/PetqisWe9JGAWD/O+slQ2KRu9hNww06
- KMDPJRdyj5bRuBVE4hHkkP23KrYr7SuhW2vpe7O/MvWEJ9uDNegpMLhTWruGngJh
- iFndxegN9w==
- =bAuo
- -----END PGP MESSAGE-----
- bar: this was unencrypted already
- baz: |
- -----BEGIN PGP MESSAGE-----
- hQEMAw2B674HRhwSAQf+Ne+IfsP2IcPDrUWct8sTJrga47jQvlPCmO+7zJjOVcqz
- gLjUKvMajrbI/jorBWxyAbF+5E7WdG9WHHVnuoywsyTB9rbmzuPqYCJCe+ZVyqWf
- 9qgJ+oUjcvYIFmH3h7H68ldqbxaAUkAOQbTRHdr253wwaTIC91ZeX0SCj64HfTg7
- Izwk383CRWonEktXJpientApQFSUWNeLUWagEr/YPNFA3vzpPF5/Ia9X8/z/6oO2
- q+D5W5mVsns3i2HHbg2A8Y+pm4TWnH6mTSh/gdxPqssi9qIrzGQ6H1tEoFFOEq1V
- kJBe0izlfudqMq62XswzuRB4CYT5Iqw1c97T+1RqENJCASG0Wz8AGhinTdlU5iQl
- JkLKqBxcBz4L70LYWyHhYwYROJWjHgKAywX5T67ftq0wi8APuZl9olnOkwSK+wrY
- 1OZi
- =7epf
- -----END PGP MESSAGE-----
- qux:
- - foo
- - bar
- - |
- -----BEGIN PGP MESSAGE-----
- hQEMAw2B674HRhwSAQgAg1YCmokrweoOI1c9HO0BLamWBaFPTMblOaTo0WJLZoTS
- ksbQ3OJAMkrkn3BnnM/djJc5C7vNs86ZfSJ+pvE8Sp1Rhtuxh25EKMqGOn/SBedI
- gR6N5vGUNiIpG5Tf3DuYAMNFDUqw8uY0MyDJI+ZW3o3xrMUABzTH0ew+Piz85FDA
- YrVgwZfqyL+9OQuu6T66jOIdwQNRX2NPFZqvon8liZUPus5VzD8E5cAL9OPxQ3sF
- f7/zE91YIXUTimrv3L7eCgU1dSxKhhfvA2bEUi+AskMWFXFuETYVrIhFJAKnkFmE
- uZx+O9R9hADW3hM5hWHKH9/CRtb0/cC84I9oCWIQPdI+AaPtICxtsD2N8Q98hhhd
- 4M7I0sLZhV+4ZJqzpUsOnSpaGyfh1Zy/1d3ijJi99/l+uVHuvmMllsNmgR+ZTj0=
- =LrCQ
- -----END PGP MESSAGE-----
- When the pillar data is compiled, the results will be decrypted:
- .. code-block:: bash
- # salt myminion pillar.items
- myminion:
- ----------
- secrets:
- ----------
- vault:
- ----------
- bar:
- this was unencrypted already
- baz:
- rosebud
- foo:
- supersecret
- qux:
- - foo
- - bar
- - baz
- Salt must be told what portions of the pillar data to decrypt. This is done
- using the :conf_master:`decrypt_pillar` config option:
- .. code-block:: yaml
- decrypt_pillar:
- - 'secrets:vault': gpg
- The notation used to specify the pillar item(s) to be decrypted is the same as
- the one used in :py:func:`pillar.get <salt.modules.pillar.get>` function.
- If a different delimiter is needed, it can be specified using the
- :conf_master:`decrypt_pillar_delimiter` config option:
- .. code-block:: yaml
- decrypt_pillar:
- - 'secrets|vault': gpg
- decrypt_pillar_delimiter: '|'
- The name of the renderer used to decrypt a given pillar item can be omitted,
- and if so it will fall back to the value specified by the
- :conf_master:`decrypt_pillar_default` config option, which defaults to ``gpg``.
- So, the first example above could be rewritten as:
- .. code-block:: yaml
- decrypt_pillar:
- - 'secrets:vault'
- Encrypted Pillar Data on the CLI
- --------------------------------
- .. versionadded:: 2016.3.0
- The following functions support passing pillar data on the CLI via the
- ``pillar`` argument:
- - :py:func:`pillar.items <salt.modules.pillar.items>`
- - :py:func:`state.apply <salt.modules.state.apply_>`
- - :py:func:`state.highstate <salt.modules.state.highstate>`
- - :py:func:`state.sls <salt.modules.state.sls>`
- Triggerring decryption of this CLI pillar data can be done in one of two ways:
- 1. Using the ``pillar_enc`` argument:
- .. code-block:: bash
- # salt myminion pillar.items pillar_enc=gpg pillar='{foo: "-----BEGIN PGP MESSAGE-----\n\nhQEMAw2B674HRhwSAQf+OvPqEdDoA2fk15I5dYUTDoj1yf/pVolAma6iU4v8Zixn\nRDgWsaAnFz99FEiFACsAGDEFdZaVOxG80T0Lj+PnW4pVy0OXmXHnY2KjV9zx8FLS\nQxfvmhRR4t23WSFybozfMm0lsN8r1vfBBjbK+A72l0oxN78d1rybJ6PWNZiXi+aC\nmqIeunIbAKQ21w/OvZHhxH7cnIiGQIHc7N9nQH7ibyoKQzQMSZeilSMGr2abAHun\nmLzscr4wKMb+81Z0/fdBfP6g3bLWMJga3hSzSldU9ovu7KR8rDJI1qOlENj3Wm8C\nwTpDOB33kWIKMqiAjY3JFtb5MCHrafyggwQL7cX1+tI+AbSO6kZpbcDfzetb77LZ\nxc5NWnnGK4pGoqq4MAmZshw98RpecSHKMosto2gtiuWCuo9Zn5cV/FbjZ9CTWrQ=\n=0hO/\n-----END PGP MESSAGE-----"}'
- The newlines in this example are specified using a literal ``\n``. Newlines
- can be replaced with a literal ``\n`` using ``sed``:
- .. code-block:: bash
- $ echo -n bar | gpg --armor --trust-model always --encrypt -r user@domain.tld | sed ':a;N;$!ba;s/\n/\\n/g'
- .. note::
- Using ``pillar_enc`` will perform the decryption minion-side, so for
- this to work it will be necessary to set up the keyring in
- ``/etc/salt/gpgkeys`` on the minion just as one would typically do on
- the master. The easiest way to do this is to first export the keys from
- the master:
- .. code-block:: bash
- # gpg --homedir /etc/salt/gpgkeys --export-secret-key -a user@domain.tld >/tmp/keypair.gpg
- Then, copy the file to the minion, setup the keyring, and import:
- .. code-block:: bash
- # mkdir -p /etc/salt/gpgkeys
- # chmod 0700 /etc/salt/gpgkeys
- # gpg --homedir /etc/salt/gpgkeys --list-keys
- # gpg --homedir /etc/salt/gpgkeys --import --allow-secret-key-import keypair.gpg
- The ``--list-keys`` command is run create a keyring in the newly-created
- directory.
- Pillar data which is decrypted minion-side will still be securely
- transferred to the master, since the data sent between minion and master is
- encrypted with the master's public key.
- 2. Use the :conf_master:`decrypt_pillar` option. This is less flexible in that
- the pillar key passed on the CLI must be pre-configured on the master, but
- it doesn't require a keyring to be setup on the minion. One other caveat to
- this method is that pillar decryption on the master happens at the end of
- pillar compilation, so if the encrypted pillar data being passed on the CLI
- needs to be referenced by pillar or ext_pillar *during pillar compilation*,
- it *must* be decrypted minion-side.
- Adding New Renderers for Decryption
- -----------------------------------
- Those looking to add new renderers for decryption should look at the :mod:`gpg
- <salt.renderers.gpg>` renderer for an example of how to do so. The function
- that performs the decryption should be recursive and be able to traverse a
- mutable type such as a dictionary, and modify the values in-place.
- Once the renderer has been written, :conf_master:`decrypt_pillar_renderers`
- should be modified so that Salt allows it to be used for decryption.
- If the renderer is being submitted upstream to the Salt project, the renderer
- should be added in `salt/renderers/`_. Additionally, the following should be
- done:
- - Both occurrences of :conf_master:`decrypt_pillar_renderers` in
- `salt/config/__init__.py`_ should be updated to include the name of the new
- renderer so that it is included in the default value for this config option.
- - The documentation for the :conf_master:`decrypt_pillar_renderers` config
- option in the `master config file`_ and `minion config file`_ should be
- updated to show the correct new default value.
- - The commented example for the :conf_master:`decrypt_pillar_renderers` config
- option in the `master config template`_ should be updated to show the correct
- new default value.
- .. _`salt/renderers/`: https://github.com/saltstack/salt/tree/develop/salt/renderers/
- .. _`salt/config/__init__.py`: https://github.com/saltstack/salt/tree/develop/salt/config/__init__.py
- .. _`master config file`: https://github.com/saltstack/salt/tree/develop/doc/ref/configuration/master.rst
- .. _`minion config file`: https://github.com/saltstack/salt/tree/develop/doc/ref/configuration/minion.rst
- .. _`master config template`: https://github.com/saltstack/salt/tree/develop/conf/master
- Master Config in Pillar
- =======================
- For convenience the data stored in the master configuration file can be made
- available in all minion's pillars. This makes global configuration of services
- and systems very easy but may not be desired if sensitive data is stored in the
- master configuration. This option is disabled by default.
- To enable the master config from being added to the pillar set
- :conf_minion:`pillar_opts` to ``True`` in the minion config file:
- .. code-block:: yaml
- pillar_opts: True
- Minion Config in Pillar
- =======================
- Minion configuration options can be set on pillars. Any option that you want
- to modify, should be in the first level of the pillars, in the same way you set
- the options in the config file. For example, to configure the MySQL root
- password to be used by MySQL Salt execution module, set the following pillar
- variable:
- .. code-block:: yaml
- mysql.pass: hardtoguesspassword
- Master Provided Pillar Error
- ============================
- By default if there is an error rendering a pillar, the detailed error is
- hidden and replaced with:
- .. code-block:: bash
- Rendering SLS 'my.sls' failed. Please see master log for details.
- The error is protected because it's possible to contain templating data
- which would give that minion information it shouldn't know, like a password!
- To have the master provide the detailed error that could potentially carry
- protected data set ``pillar_safe_render_error`` to ``False``:
- .. code-block:: yaml
- pillar_safe_render_error: False
- .. toctree::
- ../tutorials/pillar
|