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en | doc | /doc/salt/ | 185 | Salt (management stack) |
Since the Qubes R3.1 release we have included the Salt (also called SaltStack) management engine in dom0 as default (with some states already configured). Salt allows administrators to easily configure their systems. In this guide we will show how it is set up and how you can modify it for your own purpose.
In the current form the API is provisional and subject to change between minor releases.
Understanding Salt
This document is not meant to be comprehensive Salt documentation; however, before writing anything it is required you have at least some understanding of basic Salt-related vocabulary. For more exhaustive documentation, visit official site, though we must warn you that it is not easy to read if you just start working with Salt and know nothing.
The Salt Architecture
Salt is a client-server model, where the server (called master) manages
its clients (called minions).
In typical situations, it is intended that the administrator interacts only
with the master and keeps the configurations there.
In Qubes, we don't have a master.
Instead we have one minion which resides in dom0
and manages domains from
there.
This setup is also supported by Salt.
Salt is a management engine (similar to Ansible, Puppet, and Chef), that enforces a particular state of a minion system. A state is an end effect declaratively expressed by the administrator. This is the most important concept in the entire engine. All configurations (i.e., the states) are written in YAML.
A pillar is a data back-end declared by the administrator. When states become repetitive, instead of pure YAML they can be written using a template engine (preferably Jinja2); which can use data structures specified in pillars.
A formula is a ready to use, packaged solution that combines a state and a pillar (possibly with some file templates and other auxiliary files). There are many formulas made by helpful people all over the Internet.
A grain is some data that is also available in templates, but its value is not
directly specified by administrator.
For example, the distribution (e.g., "Debian"
or "Gentoo"
) is a value of
the grain "os"
. It also contains other information about the kernel,
hardware, etc.
A module is a Python extension to Salt that is responsible for actually
enforcing the state in a particular area.
It exposes some imperative functions for the administrator.
For example, there is a system
module that has a system.halt
function that,
when issued, will immediately halt a domain.
There is another function called state.highstate
which will synchronize the
state of the system with the administrator's configuration/desires.
Configuration
States
The smallest unit of configuration is a state. A state is written in YAML and looks like this:
stateid:
cmd.run: #this is the execution module. in this case it will execute a command on the shell
- name: echo 'hello world' #this is a parameter of the state.
The stateid has to be unique throughout all states running for a minion and can
be used to order the execution of the references state.
cmd.run
is an execution module.
It executes a command on behalf of the administrator.
name: echo 'hello world'
is a parameter for the execution module cmd.run
.
The module used defines which parameters can be passed to it.
There is a list of officially available states. There are many very useful states:
- For managing files: Use this to create files or directories and change them (append lines, replace text, set their content etc.)
- For installing and uninstalling packages.
- For executing shell commands.
With these three states you can define most of the configuration of a VM.
You can also order the execution of your states:
D:
cmd.run:
- name: echo 1
- order: last
C:
cmd.run:
- name: echo 1
B:
cmd.run:
- name: echo 1
- require:
- cmd: A
- require_in:
- cmd:C
A:
cmd.run:
- name: echo 1
- order: 1
The order of execution will be A, B, C, D
.
The official documentation has more details on the
require and order arguments.
State Files
When configuring a system you will write one or more state files (*.sls
) and
put (or symlink) them into the main Salt directory /srv/salt/
.
Each state file contains multiple states and should describe some unit of
configuration (e.g., a state file mail.sls
could setup a VM for e-mail).
Top Files
After you have several state files, you need something to assign them to a VM.
This is done by *.top
files (official documentation).
Their structure looks like this:
environment:
target_matching_clause:
- statefile1
- folder2.statefile2
In most cases, the environment will be called base
.
The target_matching_clause
will be used to select your minions (VMs).
It can be either the name of a VM or a regular expression.
If you are using a regular expressions, you need to give Salt a hint you are
doing so:
environment:
^app-(work|(?!mail).*)$:
- match: pcre
- statefile
For each target you can write a list of state files.
Each line is a path to a state file (without the .sls
extension) relative to
the main directory.
Each /
is exchanged with a .
, so you can't reference files or directories
with a .
in their name.
Enabling Top Files and Applying the States
Now, because we use custom extensions to manage top files (instead of just enabling them all), to enable a particular top file you should issue command:
$ qubesctl top.enable my-new-vm
To list all enabled top files:
$ qubesctl top.enabled
And to disable one:
$ qubesctl top.disable my-new-vm
To apply the states to dom0 and all VMs:
$ qubesctl --all state.highstate
(More information on the qubesctl
command further down.)
Template Files
You will sometimes find yourself writing repetitive states.
To solve this, there is the ability to template files or states.
This is most commonly done with Jinja.
Jinja is similar to Python and in many cases behaves in a similar fashion, but
there are sometimes differences when, for example, you set some variable inside
a loop: the variable outside will not get changed.
Instead, to get this behavior, you would use a do
statement.
So you should take a look at the Jinja API documentation.
Documentation about using Jinja to directly call Salt functions and get data
about your system can be found in the official
Salt documentation.
Salt Configuration, QubesOS layout
All Salt configuration files are in the /srv/
directory, as usual.
The main directory is /srv/salt/
where all state files reside.
States are contained in *.sls
files.
However, the states that are part of the standard Qubes distribution are mostly
templates and the configuration is done in pillars from formulas.
The formulas are in /srv/formulas
, including stock formulas for domains in
/srv/formulas/dom0/virtual-machines-formula/qvm
, which are used by firstboot.
Because we use some code that is not found in older versions of Salt, there is
a tool called qubesctl
that should be run instead of salt-call --local
.
It accepts all the same arguments of the vanilla tool.
Configuring a VM's System from Dom0
Salt in Qubes can be used to configure VMs from dom0.
Simply set the VM name as the target minion name in the top file.
You can also use the qubes
pillar module to select VMs with a particular
property (see below).
If you do so, then you need to pass additional arguments to the qubesctl
tool:
usage: qubesctl [-h] [--show-output] [--force-color] [--skip-dom0]
[--targets TARGETS | --templates | --app | --all]
...
positional arguments:
command Salt command to execute (e.g., state.highstate)
optional arguments:
-h, --help show this help message and exit
--show-output Show output of management commands
--force-color Force color output, allow control characters from VM,
UNSAFE
--skip-dom0 Skip dom0 configuration (VM creation etc)
--targets TARGETS Coma separated list of VMs to target
--templates Target all templates
--app Target all AppVMs
--all Target all non-disposable VMs (TemplateVMs and AppVMs)
To apply a state to all templates, call qubesctl --templates state.highstate
.
The actual configuration is applied using salt-ssh
(running over qrexec
instead of ssh
).
Which means you don't need to install anything special in a VM you want to
manage.
Additionally, for each target VM, salt-ssh
is started from a temporary VM.
This way dom0 doesn't directly interact with potentially malicious target VMs;
and in the case of a compromised Salt VM, because they are temporary, the
compromise cannot spread from one VM to another.
Beginning with Qubes 4.0 and after QSB #45, we implemented two changes:
-
Added the
management_dispvm
VM property, which specifies the DVM Template that should be used for management, such as Salt configuration. TemplateBasedVMs inherit this property from their parent TemplateVMs. If the value is not set explicitly, the default is taken from the globalmanagement_dispvm
property. The VM-specific property is set with theqvm-prefs
command, while the global property is set with thequbes-prefs
command. -
Created the
default-mgmt-dvm
DisposableVM Template, which is hidden from the menu (to avoid accidental use), has networking disabled, and has a black label (the same as TemplateVMs). This VM is set as the globalmanagement_dispvm
. Keep in mind that this DVM template has full control over the VMs it's used to manage.
Writing Your Own Configurations
Let's start with a quick example:
my new and shiny VM:
qvm.present:
- name: salt-test # can be omitted when same as ID
- template: fedora-21
- label: yellow
- mem: 2000
- vcpus: 4
- flags:
- proxy
It uses the Qubes-specific qvm.present
state, which ensures that the domain is
present (if not, it creates it).
- The
name
flag informs Salt that the domain should be namedsalt-test
(notmy new and shiny VM
). - The
template
flag informs Salt which template should be used for the domain. - The
label
flag informs Salt what color the domain should be. - The
mem
flag informs Salt how much RAM should be allocated to the domain. - The
vcpus
flag informs Salt how many Virtual CPUs should be allocated to the domain - The
proxy
flag informs Salt that the domain should be a ProxyVM.
As you will notice, the options are the same (or very similar) to those used in
qvm-prefs
.
This should be put in /srv/salt/my-new-vm.sls
or another .sls
file.
A separate *.top
file should be also written:
base:
dom0:
- my-new-vm
Note The third line should contain the name of the previous state file,
without the .sls
extension.
To enable the particular top file you should issue the command:
$ qubesctl top.enable my-new-vm
To apply the state:
$ qubesctl state.highstate
Example of Configuring a VM's System from Dom0
Lets make sure that the mc
package is installed in all templates.
Similar to the previous example, you need to create a state file
(/srv/salt/mc-everywhere.sls
):
mc:
pkg.installed: []
Then the appropriate top file (/srv/salt/mc-everywhere.top
):
base:
qubes:type:template:
- match: pillar
- mc-everywhere
Now you need to enable the top file:
$ qubesctl top.enable mc-everywhere
And apply the configuration:
$ qubesctl --all state.highstate
All Qubes-specific States
qvm.present
As in the example above, it creates a domain and sets its properties.
qvm.prefs
You can set properties of an existing domain:
my preferences:
qvm.prefs:
- name: salt-test2
- netvm: sys-firewall
Note The name:
option will not change the name of a domain, it will only
be used to match a domain to apply the configurations to it.
qvm.service
services in my domain:
qvm.service:
- name: salt-test3
- enable:
- service1
- service2
- disable:
- service3
- service4
- default:
- service5
This enables, disables, or sets to default, services as in qvm-service
.
qvm.running
Ensures the specified domain is running:
domain is running:
qvm.running:
- name: salt-test4
Virtual Machine Formulae
You can use these formulae to download, install, and configure VMs in Qubes. These formulae use pillar data to define default VM names and configuration details. The default settings can be overridden in the pillar data located in:
/srv/pillar/base/qvm/init.sls
In dom0, you can apply a single state with sudo qubesctl state.sls STATE_NAME
.
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
).
Available states
qvm.sys-net
System NetVM
qvm.sys-usb
System USB VM
qvm.sys-net-with-usb
System USB VM bundled into NetVM. Do not enable together with qvm.sys-usb
.
qvm.usb-keyboard
Enable USB keyboard together with USB VM, including for early system boot (for LUKS passhprase).
This state implicitly creates a USB VM (qvm.sys-usb
state), if not already done.
qvm.sys-firewall
System firewall ProxyVM
qvm.sys-whonix
Whonix gateway ProxyVM
qvm.personal
Personal AppVM
qvm.work
Work AppVM
qvm.untrusted
Untrusted AppVM
qvm.vault
Vault AppVM with no NetVM enabled.
qvm.default-dispvm
Default DisposableVM template - fedora-26-dvm AppVM
qvm.anon-whonix
Whonix workstation AppVM.
qvm.whonix-ws-dvm
Whonix workstation AppVM for Whonix DisposableVMs.
qvm.updates-via-whonix
Setup UpdatesProxy to route all templates updates through Tor (sys-whonix here).
qvm.template-fedora-21
Fedora-21 TemplateVM
qvm.template-fedora-21-minimal
Fedora-21 minimal TemplateVM
qvm.template-debian-7
Debian 7 (wheezy) TemplateVM
qvm.template-debian-8
Debian 8 (jessie) TemplateVM
qvm.template-whonix-gw
Whonix Gateway TemplateVM
qvm.template-whonix-ws
Whonix Workstation TemplateVM
update.qubes-dom0
Updates dom0. Example (executed in dom0):
$ sudo qubesctl --show-output state.sls update.qubes-dom0
update.qubes-vm
Updates domUs. Example to update all TemplateVMs (executed in dom0):
$ sudo qubesctl --show-output --skip-dom0 --templates state.sls update.qubes-vm
Useful options:
--max-concurrency
--- Limits how many templates are updated at the same time. Adjust to your available RAM. The default is 4, and the GUI updater sets it to 1.--targets=vm1,vm2,...
--- Limit to specific VMs, instead of all of them. (Use instead of--templates
or--standalones
.)--show-output
--- Show an update summary instead of just OK/FAIL.
For other options, see qubesctl --help
.
The qubes
Pillar Module
Additional pillar data is available to ease targeting configurations (for example all templates).
Note: This list is subject to change in future releases.
qubes:type
VM type. Possible values:
admin
- Administration domain (dom0
)template
- Template VMstandalone
- Standalone VMapp
- Template based AppVM
qubes:template
Template name on which a given VM is based (if any).
qubes:netvm
VM which provides network to the given VM
Debugging
The output for each VM is logged in /var/log/qubes/mgmt-VM_NAME.log
.
If the log does not contain useful information:
-
Run
sudo qubesctl --skip-dom0 --target=VM_NAME state.highstate
-
When your VM is being started (yellow) press Ctrl-z on qubesctl.
-
Open terminal in disp-mgmt-VM_NAME.
-
Look at /etc/qubes-rpc/qubes.SaltLinuxVM - this is what is executed in the management VM.
-
Get the last two lines:
$ export PATH="/usr/lib/qubes-vm-connector/ssh-wrapper:$PATH" $ salt-ssh "$target_vm" $salt_command
Adjust $target_vm (VM_NAME) and $salt_command (state.highstate). 6. Execute them, fix problems, repeat.
Known Pitfalls
Using fedora-24-minimal
The fedora-24-minimal package is missing the sudo
package.
You can install it via:
$ qvm-run -p -u root fedora-24-minimal-template 'dnf install -y sudo'
The -p
will cause the execution to wait until the package is installed.
Having the -p
flag is important when using a state with cmd.run
.
Disk Quota Exceeded (When Installing Templates)
If you install multiple templates you may encounter this error. The solution is to shut down the updateVM between each install:
install template and shutdown updateVM:
cmd.run:
- name: sudo qubes-dom0-update -y fedora-24; qvm-shutdown {% raw %}{{ salt.cmd.run(qubes-prefs updateVM) }}{% endraw %}