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Difference between revisions of "XenServer/XenAndXenServer"

(Update to include the text from the openstack manuals)
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* The hypervisor: Xen
 
* The hypervisor: Xen
* Domain 0: runs xapi and some small pieces from [[OpenStack]]
+
* Domain 0: runs xapi and some small pieces from [[OpenStack]] (some xapi plugins and network isolation rules). The majority of this is provided by [[XenServer]] or XCP (or yourself using Kronos).
    (some xapi plugins and network isolation rules). The majority of this is
+
* [[OpenStack]] domU: The nova-compute code runs in a paravirtualized virtual machine, running on the host under management. Each host runs a local instance of nova-compute.  It will often also be running nova-network (depending on your network mode).  In this case, nova-network is managing the addresses given to the tenant VMs through DHCP.
    provided by [[XenServer]] or XCP (or yourself using Kronos).
+
* Nova uses the XenAPI Python library to talk to xapi, and it uses the Host Internal Management Network to reach from the domU to dom0 without leaving the host.
 
 
* [[OpenStack]] domU: The nova-compute code runs in a
 
    paravirtualized virtual machine, running on the host under management.
 
    Each host runs a local instance of nova-compute.  It will often also be
 
    running nova-network (depending on your network mode).  In this case,
 
    nova-network is managing the addresses given to the tenant VMs through
 
    DHCP.
 
 
 
* Nova uses the XenAPI Python library to talk to xapi, and
 
    it uses the Host Internal Management Network to reach from the domU to
 
    dom0 without leaving the host.
 
  
 
Some notes on the networking:
 
Some notes on the networking:
* The above diagram assumes FlatDHCP networking (the
+
* The above diagram assumes FlatDHCP networking (the [[DevStack]] default).
    [[DevStack]] default).
+
* There are three main [[OpenStack]] networks: Management traffic (RabbitMQ, MySQL, etc), Tenant network traffic (controlled by nova-network) and Public traffic (floating IPs, public API end points).
 
+
* Each network that leaves the host has been put through a separate physical network interface.  This is the simplest model, but it's not the only one possible.  You may choose to isolate this traffic using VLANs instead, for example.
* There are three main [[OpenStack]] networks: Management
 
    traffic (RabbitMQ, MySQL, etc), Tenant network traffic (controlled by
 
    nova-network) and Public traffic (floating IPs, public API end
 
    points).
 
 
 
* Each network that leaves the host has been put through
 
    a separate physical network interface.  This is the simplest model, but
 
    it's not the only one possible.  You may choose to isolate this traffic
 
    using VLANs instead, for example.
 
 
 
 
* nova-compute generally talks to [[XenServer]] using a host local private network called either "Guest Installer Network" or "Host Internal Managmenet Network".
 
* nova-compute generally talks to [[XenServer]] using a host local private network called either "Guest Installer Network" or "Host Internal Managmenet Network".
  
 
Another example of how to deploy [[OpenStack]] on a system with only two physical network interfaces is:
 
Another example of how to deploy [[OpenStack]] on a system with only two physical network interfaces is:
 
 
[[Image:XenServer$$XenXCPAndXenServer$DevStackDiagram.png]]
 
[[Image:XenServer$$XenXCPAndXenServer$DevStackDiagram.png]]
  

Revision as of 14:25, 21 March 2012

<<TableOfContents()>>

Getting Started

To get started, take a look at: [[XenServer/GettingStarted|Getting started with XenServer and OpenStack]]

Introduction to using Xen, XCP and XenServer with OpenStack

In this section we will describe Xen, XCP, and XenServer, the differences between them, and how to use them with OpenStack. Xen's architecture is different from KVM's in important ways, and we discuss those differences and when each might make sense in your OpenStack cloud.

Basic terminology

Xen

Xen is a hypervisor. It provides the fundamental isolation between virtual machines. Xen is open source (GPLv2) and is managed by Xen.org, an cross-industry organization. Xen is a component of many different products and projects. The hypervisor itself is very similar across all these projects, but the way that it is managed can be different, which can cause confusion if you're not clear which toolstack you are using. Make sure you know what toolstack you want before you get started.

XCP

XCP is an open source (GPLv2) toolstack for Xen. It is designed specifically as platform for enterprise and cloud computing, and is well integrated with OpenStack.

Citrix XenServer

Citrix XenServer is a commercial product. It is based on XCP, and exposes the same toolstack and managment API. As an analogy, think of XenServer being based on XCP in the way that Red Hat Enterprise Linux is based on Fedora. XenServer has a free version (which is very similar to XCP) and paid-for versions with additional features enabled.

xapi / XAPI / XenAPI

Both XenServer and XCP include Xen, Linux, and the primary control daemon known as xapi.

The API shared between XCP and XenServer is called ""XenAPI"". OpenStack usually refers to XenAPI, to indicate that the integration works equally well on XCP and XenServer. Sometimes, a careless person will refer to XenServer specifically, but you can be reasonably confident that anything that works on XenServer will also work on the latest version of XCP.

Privileged and unprivileged domains

A Xen host will run a number of virtual machines, VMs, or domains (the terms are synonymous on Xen). One of these is in charge of running the rest of the system, and is known as "domain 0", or "dom0". It is the first domain to boot after Xen, and owns the storage and networking hardware, the device drivers, and the primary control software. Any other VM is unprivileged, and are known as a "domU" or "guest". All customer VMs are unprivileged of course, but you should note that on Xen the OpenStack control software (nova-compute) also runs in a domU. This gives a level of security isolation between the privileged system software and the OpenStack sofware (much of which is customer-facing). This architecture is described in more detail later.

There is an ongoing project to split domain 0 into multiple privileged domains known as ""driver domains"" and <emphasis role="bold">stub domains"". This would give even better separation between critical components. This is an ongoing research project and you shouldn't worry about it right now. The current architecture just has three levels of separation: dom0, the OpenStack domU, and the completely unprivileged customer VMs.

Paravirtualized versus hardware virtualized domains

A Xen virtual machine can be ""paravirtualized (PV)"" or ""hardware virtualized (HVM)"". This refers to the interaction between Xen, domain 0, and the guest VM's kernel. PV guests are aware of the fact that they are virtualized and will co-operate with Xen and domain 0; this gives them better performance characteristics. HVM guests are not aware of their environment, and the hardware has to pretend that they are running on an unvirtualized machine. HVM guests have the advantage that there is no need to modify the guest operating system, which is essential when running Windows.

In OpenStack, customer VMs may run in either PV or HVM mode. However, the OpenStack domU (that's the one running nova-compute) <emphasis role="bold">must"" be running in PV mode.

Deployment architecture

When you deploy OpenStack on XCP or XenServer you will get something similar to this:

File:XenServer$$XenXCPAndXenServer$XenServer-dom0-domU.png

Key things to note:

  • The hypervisor: Xen
  • Domain 0: runs xapi and some small pieces from OpenStack (some xapi plugins and network isolation rules). The majority of this is provided by XenServer or XCP (or yourself using Kronos).
  • OpenStack domU: The nova-compute code runs in a paravirtualized virtual machine, running on the host under management. Each host runs a local instance of nova-compute. It will often also be running nova-network (depending on your network mode). In this case, nova-network is managing the addresses given to the tenant VMs through DHCP.
  • Nova uses the XenAPI Python library to talk to xapi, and it uses the Host Internal Management Network to reach from the domU to dom0 without leaving the host.

Some notes on the networking:

  • The above diagram assumes FlatDHCP networking (the DevStack default).
  • There are three main OpenStack networks: Management traffic (RabbitMQ, MySQL, etc), Tenant network traffic (controlled by nova-network) and Public traffic (floating IPs, public API end points).
  • Each network that leaves the host has been put through a separate physical network interface. This is the simplest model, but it's not the only one possible. You may choose to isolate this traffic using VLANs instead, for example.
  • nova-compute generally talks to XenServer using a host local private network called either "Guest Installer Network" or "Host Internal Managmenet Network".

Another example of how to deploy OpenStack on a system with only two physical network interfaces is: File:XenServer$$XenXCPAndXenServer$DevStackDiagram.png

XenServer pools

Before OpenStack 2012.1 ("Essex"), all XenServer machines used with OpenStack are standalone machines, usually only using local storage.

However in 2012.1 and later, the host-aggregates feature allows you to create pools of XenServer hosts (configuring shared storage is still an out of band activity). This move will enable live migration when using shared storage.

Xen and libvirt

It may possible to manage Xen using libvirt. This would be necessary for any Xen-based system that isn't using the XCP toolstack, such as SUSE Linux or Oracle Linux. Unfortunately, this is not well tested or supported today, and using the XCP or XenServer toolstacks with the OpenStack XenAPI backend is the only recommended method.

Further reading

What is Xen? by Xen.org: http://xen.org/files/Marketing/WhatisXen.pdf.

Xen Hypervisor project: http://xen.org/products/xenhyp.html.

XCP project: http://xen.org/products/cloudxen.html.