os-xenapi/README.rst
jianghua wang b61ca2a13c Add reno for features in os-xenapi v0.3.1
Added reno for the following features:
* VDI stream
* XAPI pool
And also updated README to include the feature information.

Change-Id: I3ff557294d7b1249b832db94a7dc3d4388e48684
2017-09-29 02:03:35 +00:00

266 lines
9.8 KiB
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=========
os-xenapi
=========
XenAPI library for OpenStack projects
This library provides the support functions needed to connect to and manage a XenAPI-based
hypervisor, such as Citrix's XenServer.
* Free software: Apache license
* Source: http://git.openstack.org/cgit/openstack/os-xenapi
* Bugs: http://bugs.launchpad.net/os-xenapi
Features
--------
The following features are supported since 0.3.1:
* VDI streaming
It will allow the library user to create XenServer VDI from a gzipped
image data stream; or create gzipped image data stream from a specified
XenServer VDI. By comparing to the existing dom0 glance plugin, the
image data gets processed on the fly via streams. So it doesn't create
intermediate files. And it completely uses the formal VDI import or
export APIs when it exchanges VDI data with XenServer.
* XAPI pool
With this feature, we can deploy OpenStack on hosts which belong to a
XAPI pool, so that we can get the benefits from XAPI pool features:
e.g. it's able to live migrate instance between two hosts without
moving the disks on shared storage.
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Install Devstack on XenServer
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Getting Started With XenServer and Devstack
___________________________________________
The purpose of the code in the install directory is to help developers bootstrap a
XenServer(7.0 and above) + OpenStack development environment.
This guide gives some pointers on how to get started.
Xenserver is a Type 1 hypervisor, so it is best installed on bare metal. The
OpenStack services are configured to run within a virtual machine on the XenServer host.
The VM uses the XAPI toolstack to communicate with the host over a network connection
(see `MGT_BRIDGE_OR_NET_NAME`).
The provided local.conf helps to build a basic devstack environment.
Introduction
............
Requirements
************
- A management network with access to the internet
- A DHCP server to provide addresses on this management network
- XenServer 7.0 or above installed with a local EXT SR (labelled "Optimised for XenDesktop" in the
installer) or a remote NFS SR
This network will be used as the OpenStack management network. The VM (Tenant) Network and the
Public Network will not be connected to any physical interfaces, only new virtual networks which
will be created by the `install_on_xen_host.sh` script.
Steps to follow
***************
You should install the XenServer host first, then launch the devstack installation in one of two ways,
- From a remote linux client (Recommended)
- Download install-devstack-xen.sh to the linux client
- Configure the local.conf contents in install-devstack-xen.sh.
- Generate passwordless ssh key using "ssh-keygen -t rsa -N "" -f devstack_key.priv"
- Launch script using "install-devstack-xen.sh XENSERVER mypassword devstack_key.priv" with some
optional arguments
- On the XenServer host
- Download os-xenapi to XenServer
- Create and customise a `local.conf`
- Start `install_on_xen_host.sh` script
Brief explanation
*****************
The `install-devstack-xen.sh` script will:
- Verify some pre-requisites to installation
- Download os-xenapi folder to XenServer host
- Generate a standard local.conf file
- Call install_on_xen_host.sh to do devstack installation
- Run tempest test if required
The 'install_on_xen_host.sh' script will:
- Verify the host configuration
- Create template for devstack DomU VM if needed. Including:
- Creating the named networks, if they don't exist
- Preseed-Netinstall an Ubuntu Virtual Machine , with 1 network interface:
- `eth0` - Connected to `UBUNTU_INST_BRIDGE_OR_NET_NAME` (which defaults to
`MGT_BRIDGE_OR_NET_NAME`)
- After the Ubuntu install process has finished, the network configuration is modified to:
- `eth0` - Management interface, connected to `MGT_BRIDGE_OR_NET_NAME`. Note that XAPI must be
accessible through this network.
- `eth1` - VM interface, connected to `VM_BRIDGE_OR_NET_NAME`
- `eth2` - Public interface, connected to `PUB_BRIDGE_OR_NET_NAME`
- Create a template of the VM and destroy the current VM
- Create DomU VM according to the template and ssh to the VM
- Create a linux service to enable devstack service after VM reboot. The service will:
- Download devstack source code if needed
- Call unstack.sh and stack.sh to install devstack
- Reboot DomU VM
Step 1: Install Xenserver
.........................
Install XenServer on a clean box. You can download the latest XenServer for
free from: http://www.xenserver.org/
The XenServer IP configuration depends on your local network setup. If you are
using dhcp, make a reservation for XenServer, so its IP address won't change
over time. Make a note of the XenServer's IP address, as it has to be specified
in `local.conf`. The other option is to manually specify the IP setup for the
XenServer box. Please make sure, that a gateway and a nameserver is configured,
as `install-devstack-xen.sh` will connect to github.com to get source-code snapshots.
OpenStack currently only supports file-based (thin provisioned) SR types EXT and NFS. As such the
default SR should either be a local EXT SR or a remote NFS SR. To create a local EXT SR use the
"Optimised for XenDesktop" option in the XenServer host installer.
Step 2: Download install-devstack-xen.sh
........................................
On your remote linux client, get the install script from https://raw.githubusercontent.com/openstack/os-xenapi/master/tools/install-devstack-xen.sh
Step 3: local.conf overview
...........................
Devstack uses a local.conf for user-specific configuration. install-devstack-xen provides a
configuration file which is suitable for many simple use cases. In more advanced use cases, you may
need to configure the local.conf file after installation - or use the second approach outlined above
to bypass the install-devstack-xen script.
local.conf sample::
[[local|localrc]]
enable_plugin os-xenapi https://github.com/openstack/os-xenapi.git
# Passwords
MYSQL_PASSWORD=citrix
SERVICE_TOKEN=citrix
ADMIN_PASSWORD=citrix
SERVICE_PASSWORD=citrix
RABBIT_PASSWORD=citrix
GUEST_PASSWORD=citrix
XENAPI_PASSWORD="$XENSERVER_PASS"
SWIFT_HASH="66a3d6b56c1f479c8b4e70ab5c2000f5"
# Do not use secure delete
CINDER_SECURE_DELETE=False
# Compute settings
VIRT_DRIVER=xenserver
# Tempest settings
TERMINATE_TIMEOUT=90
BUILD_TIMEOUT=600
# DevStack settings
LOGDIR=${LOGDIR}
LOGFILE=${LOGDIR}/stack.log
# Turn on verbosity (password input does not work otherwise)
VERBOSE=True
# XenAPI specific
XENAPI_CONNECTION_URL="http://$XENSERVER_IP"
VNCSERVER_PROXYCLIENT_ADDRESS="$XENSERVER_IP"
# Neutron specific part
ENABLED_SERVICES+=neutron,q-domua
Q_ML2_PLUGIN_MECHANISM_DRIVERS=openvswitch
Q_ML2_PLUGIN_TYPE_DRIVERS=vxlan,flat
Q_ML2_TENANT_NETWORK_TYPE=vxlan
VLAN_INTERFACE=eth1
PUBLIC_INTERFACE=eth2
Step 4: Run `./install-devstack-xen.sh` on your remote linux client
...................................................................
An example::
# Create a passwordless ssh key
ssh-keygen -t rsa -N "" -f devstack_key.priv
# Install devstack
./install-devstack-xen.sh XENSERVER mypassword devstack_key.priv
If you don't select wait till launch (using "-w 0" option), once this script finishes executing,
login the VM (DevstackOSDomU) that it installed and tail the /opt/stack/devstack_logs/stack.log
file. You will need to wait until it stack.log has finished executing.
Appendix
________
This section contains useful information for using specific ubuntu network mirrors, which may
be required for specific environments to resolve specific access or performance issues. As these
are advanced options, the "install-devstack-xen" approach does not support them. If you wish to use
these options, please follow the approach outlined above which involves manually downloading
os-xenapi and configuring local.conf (or xenrc in the below cases)
Using a specific Ubuntu mirror for installation
...............................................
To speed up the Ubuntu installation, you can use a specific mirror. To specify
a mirror explicitly, include the following settings in your `xenrc` file:
sample code::
UBUNTU_INST_HTTP_HOSTNAME="archive.ubuntu.com"
UBUNTU_INST_HTTP_DIRECTORY="/ubuntu"
These variables set the `mirror/http/hostname` and `mirror/http/directory`
settings in the ubuntu preseed file. The minimal ubuntu VM will use the
specified parameters.
Use an http proxy to speed up Ubuntu installation
.................................................
To further speed up the Ubuntu VM and package installation, an internal http
proxy could be used. `squid-deb-proxy` has proven to be stable. To use an http
proxy, specify the following in your `xenrc` file:
sample code::
UBUNTU_INST_HTTP_PROXY="http://ubuntu-proxy.somedomain.com:8000"
Exporting the Ubuntu VM to an XVA
*********************************
Assuming you have an nfs export, `TEMPLATE_NFS_DIR`, the following sample code will export the jeos
(just enough OS) template to an XVA that can be re-imported at a later date.
sample code::
TEMPLATE_FILENAME=devstack-jeos.xva
TEMPLATE_NAME=jeos_template_for_ubuntu
mountdir=$(mktemp -d)
mount -t nfs "$TEMPLATE_NFS_DIR" "$mountdir"
VM="$(xe template-list name-label="$TEMPLATE_NAME" --minimal)"
xe template-export template-uuid=$VM filename="$mountdir/$TEMPLATE_FILENAME"
umount "$mountdir"
rm -rf "$mountdir"
Import the Ubuntu VM
********************
Given you have an nfs export `TEMPLATE_NFS_DIR` where you exported the Ubuntu
VM as `TEMPLATE_FILENAME`:
sample code::
mountdir=$(mktemp -d)
mount -t nfs "$TEMPLATE_NFS_DIR" "$mountdir"
xe vm-import filename="$mountdir/$TEMPLATE_FILENAME"
umount "$mountdir"
rm -rf "$mountdir"