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* Automated using https://github.com/myii/ssf-formula/pull/453 |
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.github/workflows | ||
bin | ||
dev | ||
docs | ||
salt | ||
test | ||
.gitignore | ||
.gitlab-ci.yml | ||
.pre-commit-config.yaml | ||
.rstcheck.cfg | ||
.rubocop.yml | ||
.salt-lint | ||
.travis.yml | ||
.yamllint | ||
AUTHORS.md | ||
CHANGELOG.md | ||
CODEOWNERS | ||
commitlint.config.js | ||
FORMULA | ||
Gemfile | ||
Gemfile.lock | ||
kitchen.macos.yml | ||
kitchen.vagrant.yml | ||
kitchen.windows.yml | ||
kitchen.yml | ||
LICENSE | ||
pillar.example | ||
pre-commit_semantic-release.sh | ||
release-rules.js | ||
release.config.js | ||
Vagrantfile |
salt-formula
Yes, Salt can Salt itself!
Table of Contents
General notes
See the full SaltStack Formulas installation and usage instructions.
If you are interested in writing or contributing to formulas, please pay attention to the Writing Formula Section.
If you want to use this formula, please pay attention to the
FORMULA
file and/or git tag
, which contains
the currently released version. This formula is versioned according to
Semantic Versioning.
See Formula Versioning Section for more details.
Contributing to this repo
Commit message formatting is significant!!
Please see How to contribute for more details.
Available states
salt
Meta-state (This is a state that includes other states).
This calls all runable states based on configured pillar data.
salt.minion
Install a minion
salt.master
Install a master.
salt.syndic
Install a syndic.
salt.cloud
Install salt cloud.
salt.ssh
Install salt-ssh with roster file. Configure pillar data under salt:ssh_roster to feed the template.
salt.api
Install salt api Requisite: Configure salt-master with rest_cherrypy or rest_tornado.
salt.standalone
Install a minion and configure it in standalone mode.
salt.gitfs.dulwich
Install gitfs backend dulwich dependencies. Set
salt:master:gitfs_provider: dulwich
in your pillar.
salt.gitfs.gitpython
Install gitfs backend GitPython dependenciess. Set
salt:master:gitfs_provider: gitpython
in your pillar.
salt.gitfs.keys
Install ssh keys to be used by gitfs
salt.gitfs.pygit2
Install gitfs backend libgit2/pygit2 dependenciess. Set
salt:master:gitfs_provider: pygit2
in your pillar. For EL
distributions, pygit is installed from packages from EPEL.
salt.pkgrepo
It is recommended to use SaltStack repository for Debian, RedHat, and SuSE, to benefit from the latest stable salt release. Refer to official documentation at <http://docs.saltstack.com/en/latest/topics/installation/index.html#platform-specific-installation-instructions>`_.
salt.pkgrepo.clean
Undo the effects of salt.pkgrepo
on Debian, RedHat, and
SuSE.
salt.formulas
Clone selected Salt
formulas Git repositories under /srv/formulas
and makes
them available in the relevant file_roots
settings. Please
note that in order for file_roots
to be updated,
salt.master
must be called after
salt.formulas
. For example:
base:
'saltmain':
- salt.formulas
- salt.master
Pillar data can be used to customize all paths, URLs, etc. Here's a minimal pillar sample installing two formulas in the base environment:
salt_formulas:
list:
base:
- salt-formula
- openssh-formula
See pillar.example for an exhaustive list of settings available via pillar. Note that by default this state:
- downloads the latest formulas from the saltstack-formulas project on GitHub.
- does not update the local repositories after the initial clone. This is a safety measure since you do not control how the official repositories evolve.
If you configure the state to download the formulas from repositories
that you control, then you can safely enable the
salt_formulas:git_opts:default:update
pillar setting to
True
.
Configuration
Every option available in the templates can be set in pillar.
Settings under 'salt' will be overridden by more specific settings under
salt['master']
, salt['minion']
or
salt['cloud']
. Options specified in
salt['minion']
which are not present in the default
configuration file will be added to the end of the configuration
file.
salt:
ret_port: 4506
master:
user: saltuser
...
minion:
user: saltuser
...
cloud:
providers: ec2
...
Extending
Additional templates can be added by the user under salt/files/minion.d and master.d. This might be useful if, for example, a recently-added configuration option is not yet provided by the default template.
Vagrant
Executing the provided Vagrantfile will create a Ubuntu 14.04 VM, add the default Saltstack Repository and install the current stable version.
The folders inside the VM will be set up in a way that enables you to simply execute 'sudo salt "*" state.highstate' to apply the salt formula to the VM, using the pillar.example config. You can check /etc/salt/ for results.
Remember, you will have to run state.highstate
or
state.sls salt.(master|minion|cloud)
manually.
MacOS Support
As MacOS has no native package management that pkg.installed can leverage appropriately, and brew does not count, the salt.minion state manages salt minion package upgrades by way of .pkg file download which is then installed using the macpackage.installed state.
salt-minion packages on MacOS will not be upgraded by default. To enable package management you must set the following at a minimum,
install_packages: True
version: 2017.7.4
salt_minion_pkg_source: https://repo.saltproject.io/osx/salt-2017.7.4-py3-x86_64.pkg
install_packages must indicate that the installation of a package is desired. If so, version will be used to compare the version of the installed .pkg against the downloaded one. If version is not set and a salt.pkg is already installed the .pkg will not be installed again.
A future update to the formula may include extraction of version from the downloaded .pkg itself; but for the time being you MUST set version to indicate what you believe it to be.
Refer to pillar.example for more information.
Testing
Linux testing is done with kitchen-salt
.
Requirements
- Ruby
- Docker
$ gem install bundler
$ bundle install
$ bin/kitchen test [platform]
Where [platform]
is the platform name defined in
kitchen.yml
, e.g. debian-9-2019-2-py3
.
bin/kitchen converge
Creates the docker instance and runs the salt
main
states, ready for testing.
bin/kitchen verify
Runs the inspec
tests on the actual instance.
bin/kitchen destroy
Removes the docker instance.
bin/kitchen test
Runs all of the stages above in one go: i.e. destroy
+
converge
+ verify
+ destroy
.
bin/kitchen login
Gives you SSH access to the instance for manual testing.
Testing with Vagrant
Windows/FreeBSD/OpenBSD testing is done with
kitchen-salt
.
Requirements
- Ruby
- Virtualbox
- Vagrant
Setup
$ gem install bundler
$ bundle install --with=vagrant
$ bin/kitchen test [platform]
Where [platform]
is the platform name defined in
kitchen.vagrant.yml
, e.g.
windows-81-latest-py3
.
Note
When testing using Vagrant you must set the environment variable
KITCHEN_LOCAL_YAML
to kitchen.vagrant.yml
. For
example:
$ KITCHEN_LOCAL_YAML=kitchen.vagrant.yml bin/kitchen test # Alternatively,
$ export KITCHEN_LOCAL_YAML=kitchen.vagrant.yml
$ bin/kitchen test
Then run the following commands as needed.
bin/kitchen converge
Creates the Vagrant instance and runs the salt
main
states, ready for testing.
bin/kitchen verify
Runs the inspec
tests on the actual instance.
bin/kitchen destroy
Removes the Vagrant instance.
bin/kitchen test
Runs all of the stages above in one go: i.e. destroy
+
converge
+ verify
+ destroy
.
bin/kitchen login
Gives you RDP/SSH access to the instance for manual testing.