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- .. _cloud-controller:
- ==========================
- Salt as a Cloud Controller
- ==========================
- In Salt 0.14.0, an advanced cloud control system were introduced, allow
- private cloud vms to be managed directly with Salt. This system is generally
- referred to as :strong:`Salt Virt`.
- The Salt Virt system already exists and is installed within Salt itself, this
- means that besides setting up Salt, no additional salt code needs to be
- deployed.
- .. note::
- The ``libvirt`` python module and the ``certtool`` binary are required.
- The main goal of Salt Virt is to facilitate a very fast and simple cloud. The
- cloud that can scale and is fully featured. Salt Virt comes with the
- ability to set up and manage complex virtual machine networking, powerful
- image and disk management, as well as virtual machine migration with and without
- shared storage.
- This means that Salt Virt can be used to create a cloud from a blade center
- and a SAN, but can also create a cloud out of a swarm of Linux Desktops
- without a single shared storage system. Salt Virt can make clouds from
- truly commodity hardware, but can also stand up the power of specialized
- hardware as well.
- Setting up Hypervisors
- ======================
- The first step to set up the hypervisors involves getting the correct software
- installed and setting up the hypervisor network interfaces.
- Installing Hypervisor Software
- ------------------------------
- Salt Virt is made to be hypervisor agnostic but currently the only fully
- implemented hypervisor is KVM via libvirt.
- The required software for a hypervisor is libvirt and kvm. For advanced
- features install libguestfs or qemu-nbd.
- .. note::
- Libguestfs and qemu-nbd allow for virtual machine images to be mounted
- before startup and get pre-seeded with configurations and a salt minion
- This sls will set up the needed software for a hypervisor, and run the routines
- to set up the libvirt pki keys.
- .. note::
- Package names and setup used is Red Hat specific, different package names
- will be required for different platforms
- .. code-block:: yaml
- libvirt:
- pkg.installed: []
- file.managed:
- - name: /etc/sysconfig/libvirtd
- - contents: 'LIBVIRTD_ARGS="--listen"'
- - require:
- - pkg: libvirt
- virt.keys:
- - require:
- - pkg: libvirt
- service.running:
- - name: libvirtd
- - require:
- - pkg: libvirt
- - network: br0
- - libvirt: libvirt
- - watch:
- - file: libvirt
- libvirt-python:
- pkg.installed: []
- libguestfs:
- pkg.installed:
- - pkgs:
- - libguestfs
- - libguestfs-tools
- Hypervisor Network Setup
- ------------------------
- The hypervisors will need to be running a network bridge to serve up network
- devices for virtual machines, this formula will set up a standard bridge on
- a hypervisor connecting the bridge to eth0:
- .. code-block:: yaml
- eth0:
- network.managed:
- - enabled: True
- - type: eth
- - bridge: br0
- br0:
- network.managed:
- - enabled: True
- - type: bridge
- - proto: dhcp
- - require:
- - network: eth0
- Virtual Machine Network Setup
- -----------------------------
- Salt Virt comes with a system to model the network interfaces used by the
- deployed virtual machines; by default a single interface is created for the
- deployed virtual machine and is bridged to ``br0``. To get going with the
- default networking setup, ensure that the bridge interface named ``br0`` exists
- on the hypervisor and is bridged to an active network device.
- .. note::
- To use more advanced networking in Salt Virt, read the `Salt Virt
- Networking` document:
- :ref:`Salt Virt Networking <vm-nic-profiles>`
- Libvirt State
- -------------
- One of the challenges of deploying a libvirt based cloud is the distribution
- of libvirt certificates. These certificates allow for virtual machine
- migration. Salt comes with a system used to auto deploy these certificates.
- Salt manages the signing authority key and generates keys for libvirt clients
- on the master, signs them with the certificate authority and uses pillar to
- distribute them. This is managed via the ``libvirt`` state. Simply execute this
- formula on the minion to ensure that the certificate is in place and up to
- date:
- .. note::
- The above formula includes the calls needed to set up libvirt keys.
- .. code-block:: yaml
- libvirt_keys:
- virt.keys
- Getting Virtual Machine Images Ready
- ====================================
- Salt Virt, requires that virtual machine images be provided as these are not
- generated on the fly. Generating these virtual machine images differs greatly
- based on the underlying platform.
- Virtual machine images can be manually created using KVM and running through
- the installer, but this process is not recommended since it is very manual and
- prone to errors.
- Virtual Machine generation applications are available for many platforms:
- kiwi: (openSUSE, SLES, RHEL, CentOS)
- https://suse.github.io/kiwi/
- vm-builder:
- https://wiki.debian.org/VMBuilder
- .. seealso:: :formula_url:`vmbuilder-formula`
- Once virtual machine images are available, the easiest way to make them
- available to Salt Virt is to place them in the Salt file server. Just copy an
- image into ``/srv/salt`` and it can now be used by Salt Virt.
- For purposes of this demo, the file name ``centos.img`` will be used.
- Existing Virtual Machine Images
- -------------------------------
- Many existing Linux distributions distribute virtual machine images which
- can be used with Salt Virt. Please be advised that NONE OF THESE IMAGES ARE
- SUPPORTED BY SALTSTACK.
- CentOS
- ~~~~~~
- These images have been prepared for OpenNebula but should work without issue with
- Salt Virt, only the raw qcow image file is needed:
- http://wiki.centos.org/Cloud/OpenNebula
- Fedora Linux
- ~~~~~~~~~~~~
- Images for Fedora Linux can be found here:
- https://alt.fedoraproject.org/cloud
- openSUSE
- ~~~~~~~~
- http://download.opensuse.org/repositories/openSUSE:/Leap:/42.1:/Images/images
- (look for JeOS-for-kvm-and-xen variant)
- SUSE
- ~~~~
- https://www.suse.com/products/server/jeos
- Ubuntu Linux
- ~~~~~~~~~~~~
- Images for Ubuntu Linux can be found here:
- http://cloud-images.ubuntu.com/
- Using Salt Virt
- ===============
- With hypervisors set up and virtual machine images ready, Salt can start
- issuing cloud commands using the `virt runner`.
- Start by running a Salt Virt hypervisor info command:
- .. code-block:: bash
- salt-run virt.host_info
- This will query the running hypervisor(s) for stats and display useful
- information such as the number of cpus and amount of memory.
- You can also list all VMs and their current states on all hypervisor
- nodes:
- .. code-block:: bash
- salt-run virt.list
- Now that hypervisors are available a virtual machine can be provisioned.
- The ``virt.init`` routine will create a new virtual machine:
- .. code-block:: bash
- salt-run virt.init centos1 2 512 salt://centos.img
- The Salt Virt runner will now automatically select a hypervisor to deploy
- the new virtual machine on. Using ``salt://`` assumes that the CentOS virtual
- machine image is located in the root of the :ref:`file-server` on the master.
- When images are cloned (i.e. copied locatlly after retrieval from the file server)
- the destination directory on the hypervisor minion is determined by the ``virt:images``
- config option; by default this is ``/srv/salt-images/``.
- When a VM is initialized using ``virt.init`` the image is copied to the hypervisor
- using ``cp.cache_file`` and will be mounted and seeded with a minion. Seeding includes
- setting pre-authenticated keys on the new machine. A minion will only be installed if
- one can not be found on the image using the default arguments to ``seed.apply``.
- .. note::
- The biggest bottleneck in starting VMs is when the Salt Minion needs to be
- installed. Making sure that the source VM images already have Salt
- installed will GREATLY speed up virtual machine deployment.
- You can also deploy an image on a particular minion by directly calling the
- `virt` execution module with an absolute image path. This can be quite handy for testing:
- .. code-block:: bash
- salt 'hypervisor*' virt.init centos1 2 512 image=/var/lib/libvirt/images/centos.img
- Now that the new VM has been prepared, it can be seen via the ``virt.query``
- command:
- .. code-block:: bash
- salt-run virt.query
- This command will return data about all of the hypervisors and respective
- virtual machines.
- Now that the new VM is booted it should have contacted the Salt Master, a
- ``test.version`` will reveal if the new VM is running.
- QEMU copy on write support
- ==========================
- For fast image cloning you can use the `qcow`_ disk image format.
- Pass the ``enable_qcow`` flag and a `.qcow2` image path to `virt.init`:
- .. code-block:: bash
- salt 'hypervisor*' virt.init centos1 2 512 image=/var/lib/libvirt/images/centos.qcow2 enable_qcow=True start=False
- .. note::
- Beware that attempting to boot a qcow image too quickly after cloning
- can result in a race condition where libvirt may try to boot the machine
- before image seeding has completed. For that reason it is recommended to
- also pass ``start=False`` to ``virt.init``.
- Also know that you **must not** modify the original base image without
- first making a copy and then *rebasing* all overlay images onto it.
- See the ``qemu-img rebase`` `usage docs <rebase>`_.
- Migrating Virtual Machines
- ==========================
- Salt Virt comes with full support for virtual machine migration, and using
- the libvirt state in the above formula makes migration possible.
- A few things need to be available to support migration. Many operating systems
- turn on firewalls when originally set up, the firewall needs to be opened up
- to allow for libvirt and kvm to cross communicate and execution migration
- routines. On Red Hat based hypervisors in particular port 16514 needs to be
- opened on hypervisors:
- .. code-block:: bash
- iptables -A INPUT -m state --state NEW -m tcp -p tcp --dport 16514 -j ACCEPT
- .. note::
- More in-depth information regarding distribution specific firewall settings can read in:
- :ref:`Opening the Firewall up for Salt <firewall>`
- Salt also needs the ``virt:tunnel`` option to be turned on.
- This flag tells Salt to run migrations securely via the libvirt TLS tunnel and to
- use port 16514. Without ``virt:tunnel`` libvirt tries to bind to random ports when
- running migrations.
- To turn on ``virt:tunnel`` simply apply it to the master config file:
- .. code-block:: yaml
- virt:
- tunnel: True
- Once the master config has been updated, restart the master and send out a call
- to the minions to refresh the pillar to pick up on the change:
- .. code-block:: bash
- salt \* saltutil.refresh_modules
- Now, migration routines can be run! To migrate a VM, simply run the Salt Virt
- migrate routine:
- .. code-block:: bash
- salt-run virt.migrate centos <new hypervisor>
- VNC Consoles
- ============
- Although not enabled by default, Salt Virt can also set up VNC consoles allowing for remote visual
- consoles to be opened up. When creating a new VM using ``virt.init`` pass the ``enable_vnc=True``
- parameter to have a console configured for the new VM.
- The information from a ``virt.query`` routine will display the vnc console port for the specific vms:
- .. code-block:: yaml
- centos
- CPU: 2
- Memory: 524288
- State: running
- Graphics: vnc - hyper6:5900
- Disk - vda:
- Size: 2.0G
- File: /srv/salt-images/ubuntu2/system.qcow2
- File Format: qcow2
- Nic - ac:de:48:98:08:77:
- Source: br0
- Type: bridge
- The line `Graphics: vnc - hyper6:5900` holds the key. First the port named,
- in this case 5900, will need to be available in the hypervisor's firewall.
- Once the port is open, then the console can be easily opened via vncviewer:
- .. code-block:: bash
- vncviewer hyper6:5900
- By default there is no VNC security set up on these ports, which suggests that
- keeping them firewalled and mandating that SSH tunnels be used to access these
- VNC interfaces. Keep in mind that activity on a VNC interface that is accessed
- can be viewed by any other user that accesses that same VNC interface, and any other
- user logging in can also operate with the logged in user on the virtual
- machine.
- Conclusion
- ==========
- Now with Salt Virt running, new hypervisors can be seamlessly added just by
- running the above states on new bare metal machines, and these machines will be
- instantly available to Salt Virt.
- .. links
- .. _qcow:
- https://en.wikipedia.org/wiki/Qcow
- .. _rebase:
- https://docs.fedoraproject.org/en-US/Fedora/18/html/Virtualization_Administration_Guide/sect-Virtualization-Tips_and_tricks-Using_qemu_img.html
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