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555 lines
18 KiB
Markdown
---
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layout: doc
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title: Management stack
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permalink: /doc/salt/
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---
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# Management Infrastructure
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Since the Qubes R3.1 release we have included the Salt (also called SaltStack)
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management engine in dom0 as default (with some states already configured).
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Salt allows administrators to easily configure their systems.
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In this guide we will show how it is set up and how you can modify it for your
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own purpose.
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In the current form the **API is provisional** and subject to change between
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*minor* releases.
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## Understanding Salt
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This document is not meant to be comprehensive Salt documentation; however,
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before writing anything it is required you have at least *some* understanding of
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basic Salt-related vocabulary.
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For more exhaustive documentation, visit [official site][salt-doc], though we
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must warn you that it is not easy to read if you just start working with Salt
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and know nothing.
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### The Salt Architecture
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Salt is a client-server model, where the server (called *master*) manages
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its clients (called *minions*).
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In typical situations, it is intended that the administrator interacts only
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with the master and keeps the configurations there.
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In Qubes, we don't have a master.
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Instead we have one minion which resides in `dom0` and manages domains from
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there.
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This setup is also supported by Salt.
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Salt is a management engine (similar to Ansible, Puppet, and Chef), that
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enforces a particular state of a minion system.
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A *state* is an end effect *declaratively* expressed by the administrator.
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This is the most important concept in the entire engine.
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All configurations (i.e., the states) are written in YAML.
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A *pillar* is a data back-end declared by the administrator.
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When states become repetitive, instead of pure YAML they can be written using a
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template engine (preferably Jinja2); which can use data structures specified in
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pillars.
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A *formula* is a ready to use, packaged solution that combines a state and a
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pillar (possibly with some file templates and other auxiliary files).
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There are many formulas made by helpful people all over the Internet.
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A *grain* is some data that is also available in templates, but its value is not
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directly specified by administrator.
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For example, the distribution (e.g., `"Debian"` or `"Gentoo"`) is a value of
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the grain `"os"`. It also contains other information about the kernel,
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hardware, etc.
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A *module* is a Python extension to Salt that is responsible for actually
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enforcing the state in a particular area.
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It exposes some *imperative* functions for the administrator.
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For example, there is a `system` module that has a `system.halt` function that,
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when issued, will immediately halt a domain.
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There is another function called `state.highstate` which will synchronize the
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state of the system with the administrator's configuration/desires.
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### Configuration
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#### States
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The smallest unit of configuration is a state.
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A state is written in YAML and looks like this:
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stateid:
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cmd.run: #this is the execution module. in this case it will execute a command on the shell
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- name: echo 'hello world' #this is a parameter of the state.
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The stateid has to be unique throughout all states running for a minion and can
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be used to order the execution of the references state.
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`cmd.run` is an execution module.
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It executes a command on behalf of the administrator.
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`name: echo 'hello world'` is a parameter for the execution module `cmd.run`.
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The module used defines which parameters can be passed to it.
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There is a list of [officially available states][salt-doc-states].
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There are many very useful states:
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* For [managing files][salt-doc-states-file]: Use this to create files or
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directories and change them (append lines, replace text, set their content etc.)
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* For [installing and uninstalling][salt-doc-states-pkg] packages.
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* For [executing shell commands][salt-doc-states-cmd].
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With these three states you can define most of the configuration of a VM.
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You can also [order the execution][salt-doc-states-order] of your states:
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D:
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cmd.run:
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- name: echo 1
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- order: last
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C:
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cmd.run:
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- name: echo 1
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B:
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cmd.run:
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- name: echo 1
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- require:
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- cmd: A
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- require_in:
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- cmd:C
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A:
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cmd.run:
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- name: echo 1
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- order: 1
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The order of execution will be `A, B, C, D`.
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The official documentation has more details on the
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[require][salt-doc-states-req] and [order][salt-doc-states-ord] arguments.
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#### State Files
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When configuring a system you will write one or more state files (`*.sls`) and
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put (or symlink) them into the main Salt directory `/srv/salt/`.
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Each state file contains multiple states and should describe some unit of
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configuration (e.g., a state file `mail.sls` could setup a VM for e-mail).
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#### Top Files
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After you have several state files, you need something to assign them to a VM.
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This is done by `*.top` files ([official documentation][salt-doc-top]).
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Their structure looks like this:
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environment:
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target_matching_clause:
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- statefile1
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- folder2.statefile2
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In most cases, the environment will be called `base`.
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The `target_matching_clause` will be used to select your minions (VMs).
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It can be either the name of a VM or a regular expression.
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If you are using a regular expressions, you need to give Salt a hint you are
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doing so:
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environment:
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^app-(work|(?!mail).*)$:
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- match: pcre
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- statefile
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For each target you can write a list of state files.
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Each line is a path to a state file (without the `.sls` extension) relative to
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the main directory.
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Each `/` is exchanged with a `.`, so you can't reference files or directories
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with a `.` in their name.
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### Enabling Top Files and Applying the States
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Now, because we use custom extensions to manage top files (instead of just
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enabling them all), to enable a particular top file you should issue command:
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$ qubesctl top.enable my-new-vm
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To list all enabled top files:
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$ qubesctl top.enabled
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And to disable one:
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$ qubesctl top.disable my-new-vm
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To apply the states to dom0 and all VMs:
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$ qubesctl --all state.highstate
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(More information on the `qubesctl` command further down.)
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### Template Files
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You will sometimes find yourself writing repetitive states.
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To solve this, there is the ability to template files or states.
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This is most commonly done with [Jinja][jinja].
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Jinja is similar to Python and in many cases behaves in a similar fashion, but
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there are sometimes differences when, for example, you set some variable inside
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a loop: the variable outside will not get changed.
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Instead, to get this behavior, you would use a `do` statement.
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So you should take a look at the [Jinja API documentation][jinja-tmp].
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Documentation about using Jinja to directly call Salt functions and get data
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about your system can be found in the official
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[Salt documentation][jinja-call-salt-functions].
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## Salt Configuration, QubesOS layout
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All Salt configuration files are in the `/srv/` directory, as usual.
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The main directory is `/srv/salt/` where all state files reside.
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States are contained in `*.sls` files.
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However, the states that are part of the standard Qubes distribution are mostly
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templates and the configuration is done in pillars from formulas.
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The formulas are in `/srv/formulas`, including stock formulas for domains in
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`/srv/formulas/dom0/virtual-machines-formula/qvm`, which are used by firstboot.
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Because we use some code that is not found in older versions of Salt, there is
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a tool called `qubesctl` that should be run instead of `salt-call --local`.
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It accepts all the same arguments of the vanilla tool.
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## Configuring a VM's System from Dom0
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Salt in Qubes can be used to configure VMs from dom0.
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Simply set the VM name as the target minion name in the top file.
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You can also use the `qubes` pillar module to select VMs with a particular
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property (see below).
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If you do so, then you need to pass additional arguments to the `qubesctl` tool:
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usage: qubesctl [-h] [--show-output] [--force-color] [--skip-dom0]
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[--targets TARGETS | --templates | --app | --all]
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...
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positional arguments:
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command Salt command to execute (e.g., state.highstate)
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optional arguments:
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-h, --help show this help message and exit
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--show-output Show output of management commands
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--force-color Force color output, allow control characters from VM,
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UNSAFE
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--skip-dom0 Skip dom0 configuration (VM creation etc)
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--targets TARGETS Coma separated list of VMs to target
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--templates Target all templates
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--app Target all AppVMs
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--all Target all non-disposable VMs (TemplateVMs and AppVMs)
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To apply a state to all templates, call `qubesctl --templates state.highstate`.
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The actual configuration is applied using `salt-ssh` (running over `qrexec`
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instead of `ssh`).
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Which means you don't need to install anything special in a VM you want to
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manage.
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Additionally, for each target VM, `salt-ssh` is started from a temporary VM.
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This way dom0 doesn't directly interact with potentially malicious target VMs;
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and in the case of a compromised Salt VM, because they are temporary, the
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compromise cannot spread from one VM to another.
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Beginning with Qubes 4.0 and after [QSB #45], we implemented two changes:
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1. Added the `management_dispvm` VM property, which specifies the DVM
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Template that should be used for management, such as Salt
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configuration. TemplateBasedVMs inherit this property from their
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parent TemplateVMs. If the value is not set explicitly, the default
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is taken from the global `management_dispvm` property. The
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VM-specific property is set with the `qvm-prefs` command, while the
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global property is set with the `qubes-prefs` command.
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2. Created the `default-mgmt-dvm` DisposableVM Template, which is hidden from
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the menu (to avoid accidental use), has networking disabled, and has
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a black label (the same as TemplateVMs). This VM is set as the global
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`management_dispvm`. Keep in mind that this DVM template has full control
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over the VMs it's used to manage.
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## Writing Your Own Configurations
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Let's start with a quick example:
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my new and shiny VM:
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qvm.present:
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- name: salt-test # can be omitted when same as ID
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- template: fedora-21
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- label: yellow
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- mem: 2000
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- vcpus: 4
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- flags:
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- proxy
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It uses the Qubes-specific `qvm.present` state, which ensures that the domain is
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present (if not, it creates it).
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* The `name` flag informs Salt that the domain should be named `salt-test` (not
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`my new and shiny VM`).
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* The `template` flag informs Salt which template should be used for the domain.
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* The `label` flag informs Salt what color the domain should be.
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* The `mem` flag informs Salt how much RAM should be allocated to the domain.
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* The `vcpus` flag informs Salt how many Virtual CPUs should be allocated to the
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domain
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* The `proxy` flag informs Salt that the domain should be a ProxyVM.
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As you will notice, the options are the same (or very similar) to those used in
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`qvm-prefs`.
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This should be put in `/srv/salt/my-new-vm.sls` or another `.sls` file.
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A separate `*.top` file should be also written:
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base:
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dom0:
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- my-new-vm
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**Note** The third line should contain the name of the previous state file,
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without the `.sls` extension.
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To enable the particular top file you should issue the command:
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$ qubesctl top.enable my-new-vm
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To apply the state:
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$ qubesctl state.highstate
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### Example of Configuring a VM's System from Dom0
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Lets make sure that the `mc` package is installed in all templates.
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Similar to the previous example, you need to create a state file
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(`/srv/salt/mc-everywhere.sls`):
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mc:
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pkg.installed: []
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Then the appropriate top file (`/srv/salt/mc-everywhere.top`):
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base:
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qubes:type:template:
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- match: pillar
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- mc-everywhere
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Now you need to enable the top file:
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$ qubesctl top.enable mc-everywhere
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And apply the configuration:
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$ qubesctl --all state.highstate
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## All Qubes-specific States
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### `qvm.present`
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As in the example above, it creates a domain and sets its properties.
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### `qvm.prefs`
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You can set properties of an existing domain:
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my preferences:
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qvm.prefs:
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- name: salt-test2
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- netvm: sys-firewall
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***Note*** The `name:` option will not change the name of a domain, it will only
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be used to match a domain to apply the configurations to it.
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### `qvm.service`
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services in my domain:
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qvm.service:
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- name: salt-test3
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- enable:
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- service1
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- service2
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- disable:
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- service3
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- service4
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- default:
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- service5
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This enables, disables, or sets to default, services as in `qvm-service`.
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### `qvm.running`
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Ensures the specified domain is running:
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domain is running:
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qvm.running:
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- name: salt-test4
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## Virtual Machine Formulae
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You can use these formulae to download, install, and configure VMs in Qubes.
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These formulae use pillar data to define default VM names and configuration details.
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The default settings can be overridden in the pillar data located in:
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```
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/srv/pillar/base/qvm/init.sls
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```
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In dom0, you can apply a single state with `sudo qubesctl state.sls STATE_NAME`.
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For example, `sudo qubesctl state.sls qvm.personal` will create a `personal` VM (if it does not already exist) with all its dependencies (TemplateVM, `sys-firewall`, and `sys-net`).
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### Available states
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#### `qvm.sys-net`
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System NetVM
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#### `qvm.sys-usb`
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System UsbVM
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#### `qvm.sys-net-with-usb`
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System UsbVM bundled into NetVM. Do not enable together with `qvm.sys-usb`.
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#### `qvm.usb-keyboard`
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Enable USB keyboard together with USBVM, including for early system boot (for LUKS passhprase).
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This state implicitly creates a USBVM (`qvm.sys-usb` state), if not already done.
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#### `qvm.sys-firewall`
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System firewall ProxyVM
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#### `qvm.sys-whonix`
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Whonix gateway ProxyVM
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#### `qvm.personal`
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Personal AppVM
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#### `qvm.work`
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Work AppVM
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#### `qvm.untrusted`
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Untrusted AppVM
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#### `qvm.vault`
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Vault AppVM with no NetVM enabled.
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#### `qvm.default-dispvm`
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Default DisposableVM template - fedora-26-dvm AppVM
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#### `qvm.anon-whonix`
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Whonix workstation AppVM.
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#### `qvm.whonix-ws-dvm`
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Whonix workstation AppVM for Whonix DisposableVMs.
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#### `qvm.updates-via-whonix`
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Setup UpdatesProxy to route all templates updates through Tor (sys-whonix here).
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#### `qvm.template-fedora-21`
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Fedora-21 TemplateVM
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#### `qvm.template-fedora-21-minimal`
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Fedora-21 minimal TemplateVM
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#### `qvm.template-debian-7`
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Debian 7 (wheezy) TemplateVM
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#### `qvm.template-debian-8`
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Debian 8 (jessie) TemplateVM
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#### `qvm.template-whonix-gw`
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Whonix Gateway TemplateVM
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#### `qvm.template-whonix-ws`
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Whonix Workstation TemplateVM
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## The `qubes` Pillar Module
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Additional pillar data is available to ease targeting configurations (for example all templates).
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**Note:** This list is subject to change in future releases.
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### `qubes:type`
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VM type. Possible values:
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- `admin` - Administration domain (`dom0`)
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- `template` - Template VM
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- `standalone` - Standalone VM
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- `app` - Template based AppVM
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### `qubes:template`
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Template name on which a given VM is based (if any).
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### `qubes:netvm`
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VM which provides network to the given VM
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## Debugging
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The output for each VM is logged in `/var/log/qubes/mgmt-VM_NAME.log`.
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If the log does not contain useful information:
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1. Run `sudo qubesctl --skip-dom0 --target=VM_NAME state.highstate`
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2. When your VM is being started (yellow) press Ctrl-z on qubesctl.
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3. Open terminal in disp-mgmt-VM_NAME.
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4. Look at /etc/qubes-rpc/qubes.SaltLinuxVM - this is what is
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executed in the management VM.
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5. Get the last two lines:
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$ export PATH="/usr/lib/qubes-vm-connector/ssh-wrapper:$PATH"
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$ salt-ssh "$target_vm" $salt_command
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Adjust $target_vm (VM_NAME) and $salt_command (state.highstate).
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6. Execute them, fix problems, repeat.
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## Known Pitfalls
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### Using fedora-24-minimal
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The fedora-24-minimal package is missing the `sudo` package.
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You can install it via:
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$ qvm-run -p -u root fedora-24-minimal-template 'dnf install -y sudo'
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The `-p` will cause the execution to wait until the package is installed.
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Having the `-p` flag is important when using a state with `cmd.run`.
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### Disk Quota Exceeded (When Installing Templates)
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If you install multiple templates you may encounter this error.
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The solution is to shut down the updateVM between each install:
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install template and shutdown updateVM:
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cmd.run:
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- name: sudo qubes-dom0-update -y fedora-24; qvm-shutdown {% raw %}{{ salt.cmd.run(qubes-prefs updateVM) }}{% endraw %}
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## Further Reading
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* [Salt documentation][salt-doc]
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* [Salt states][salt-doc-states] ([files][salt-doc-states-file], [commands][salt-doc-states-cmd],
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[packages][salt-doc-states-pkg], [ordering][salt-doc-states-order])
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* [Top files][salt-doc-top]
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* [Jinja templates][jinja]
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* [Qubes specific modules][salt-qvm-doc]
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* [Formulas for default Qubes VMs][salt-virtual-machines-states]
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[salt-doc]: https://docs.saltstack.com/en/latest/
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[salt-qvm-doc]: https://github.com/QubesOS/qubes-mgmt-salt-dom0-qvm/blob/master/README.rst
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[salt-virtual-machines-states]: https://github.com/QubesOS/qubes-mgmt-salt-dom0-virtual-machines/tree/master/qvm
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[salt-doc-states]: https://docs.saltstack.com/en/latest/ref/states/all/
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[salt-doc-states-file]: https://docs.saltstack.com/en/latest/ref/states/all/salt.states.file.html
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[salt-doc-states-pkg]: https://docs.saltstack.com/en/latest/ref/states/all/salt.states.pkg.html
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[salt-doc-states-cmd]: https://docs.saltstack.com/en/latest/ref/states/all/salt.states.file.html
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[salt-doc-states-order]: https://docs.saltstack.com/en/latest/ref/states/ordering.html
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[salt-doc-states-req]: https://docs.saltstack.com/en/latest/ref/states/requisites.html
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[salt-doc-states-ord]: https://docs.saltstack.com/en/latest/ref/states/ordering.html#the-order-option
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[salt-doc-top]:https://docs.saltstack.com/en/latest/ref/states/top.html
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[jinja]: http://jinja.pocoo.org/
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[jinja-tmp]: http://jinja.pocoo.org/docs/2.9/templates/
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[jinja-call-salt-functions]: https://docs.saltstack.com/en/getstarted/config/jinja.html#get-data-using-salt
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[QSB #45]: /news/2018/12/03/qsb-45/
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