Frequently Asked Questions
==========================
-include::attributes.txt[]
+ifndef::manvolnum[]
+:pve-toplevel:
+endif::manvolnum[]
+ifdef::wiki[]
+:title: FAQ
+endif::wiki[]
NOTE: New FAQs are appended to the bottom of this section.
Will {pve} run on a 32bit processor?::
-{pve} works only on 64-bit CPUยดs (AMD or Intel). There is no plan
+{pve} works only on 64-bit CPUs (AMD or Intel). There is no plan
for 32-bit for the platform.
+
NOTE: VMs and Containers can be both 32-bit and/or 64-bit.
Does my CPU support virtualization?::
-To check if your CPU is virtualization compatible, check for the "vmx"
-or "svm" tag in this command output:
+To check if your CPU is virtualization compatible, check for the `vmx`
+or `svm` tag in this command output:
+
----
egrep '(vmx|svm)' /proc/cpuinfo
[width="100%",cols="5*d",options="header"]
|===========================================================
| {pve} Version | Debian Version | First Release | Debian EOL | Proxmox EOL
-| {pve} 4.x | Debian 8 (Jessie) | 2015-10 | 2018-05 | tba
+| {pve} 5.x | Debian 9 (Stretch)| 2017-07 | tba | tba
+| {pve} 4.x | Debian 8 (Jessie) | 2015-10 | 2018-06 | 2018-06
| {pve} 3.x | Debian 7 (Wheezy) | 2013-05 | 2016-04 | 2017-02
| {pve} 2.x | Debian 6 (Squeeze)| 2012-04 | 2014-05 | 2014-05
| {pve} 1.x | Debian 5 (Lenny) | 2008-10 | 2012-03 | 2013-01
LXC vs LXD vs Proxmox Containers vs Docker::
LXC is a userspace interface for the Linux kernel containment
-features. Through a powerful API and simple tools, it lets Linux users easily
-create and manage system containers.
+features. Through a powerful API and simple tools, it lets Linux users
+easily create and manage system containers. LXC, as well as the former
+OpenVZ, aims at *system virtualization*, i.e. allows you to run a
+complete OS inside a container, where you log in as ssh, add users,
+run apache, etc...
+
-LXD is building on top of LXC to provide a new, better user experience. Under
-the hood, LXD uses LXC through liblxc and its Go binding to create and manage
-the containers. It's basically an alternative to LXC's tools and distribution
-template system with the added features that come from being controllable over
-the network.
+LXD is building on top of LXC to provide a new, better user
+experience. Under the hood, LXD uses LXC through `liblxc` and its Go
+binding to create and manage the containers. It's basically an
+alternative to LXC's tools and distribution template system with the
+added features that come from being controllable over the network.
+
-LXC, as well as the former OpenVZ, aims at *system virtualization*, ie
-allows you to run a complete OS inside a container, where you log in as ssh,
-add users, run apache, etc...
-+
-Proxmox VE aims at system virtualization, and thus uses LXC as the basis of its
-own container offer. LXC provides countless options, and it would be too
-difficult to use LXC tools directly. Instead, we provide a small wrapper called
-`pct`, the "Proxmox Container Toolkit", using LXC as a low-level library.
+Proxmox Containers also aims at *system virtualization*, and thus uses
+LXC as the basis of its own container offer. The Proxmox Container
+Toolkit is called `pct`, and is tightly coupled with {pve}. That means
+that it is aware of the cluster setup, and it can use the same network
+and storage resources as fully virtualized VMs. You can even use the
+{pve} firewall, create and restore backups, or manage containers using
+the HA framework. Everything can be controlled over the network using
+the {pve} API.
+
Docker aims at running a *single* application running in a contained
environment. Hence you're managing a docker instance from the host with the
-docker toolkit.
+docker toolkit. It is not recommended to run docker directly on your
+{pve} host.
+
NOTE: You can however perfectly install and use docker inside a Proxmox Qemu
VM, and thus getting the benefit of software containerization with the very