Initial commit of xen devstack support

This commit is contained in:
Anthony Young 2011-10-26 22:29:08 -07:00
parent 8063e6fe38
commit b62b4ca292
15 changed files with 1547 additions and 7 deletions

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@ -1,5 +1,6 @@
dnsmasq-base
kpartx
parted
mysql-server
python-mysqldb
kvm

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@ -130,9 +130,10 @@ NOVNC_DIR=$DEST/noVNC
# Specify which services to launch. These generally correspond to screen tabs
ENABLED_SERVICES=${ENABLED_SERVICES:-g-api,g-reg,key,n-api,n-cpu,n-net,n-sch,n-vnc,dash,mysql,rabbit}
# Nova hypervisor configuration. We default to **kvm** but will drop back to
# **qemu** if we are unable to load the kvm module. Stack.sh can also install
# an **LXC** based system.
# Nova hypervisor configuration. We default to libvirt whth **kvm** but will
# drop back to **qemu** if we are unable to load the kvm module. Stack.sh can
# also install an **LXC** based system.
VIRT_DRIVER=${VIRT_DRIVER:-libvirt}
LIBVIRT_TYPE=${LIBVIRT_TYPE:-kvm}
# nova supports pluggable schedulers. ``SimpleScheduler`` should work in most
@ -572,12 +573,28 @@ add_nova_flag "--ec2_dmz_host=$EC2_DMZ_HOST"
add_nova_flag "--rabbit_host=$RABBIT_HOST"
add_nova_flag "--rabbit_password=$RABBIT_PASSWORD"
add_nova_flag "--glance_api_servers=$GLANCE_HOSTPORT"
if [ -n "$MULTI_HOST" ]; then
add_nova_flag "--multi_host=$MULTI_HOST"
fi
# XenServer
# ---------
if [ "$VIRT_DRIVER" = 'xenserver' ]; then
read_password XENAPI_PASSWORD "ENTER A PASSWORD TO USE FOR XEN."
add_nova_flag "--connection_type=xenapi"
add_nova_flag "--xenapi_connection_url=http://169.254.0.1"
add_nova_flag "--xenapi_connection_username=root"
add_nova_flag "--xenapi_connection_password=$XENAPI_PASSWORD"
add_nova_flag "--flat_injected=False"
add_nova_flag "--flat_interface=eth1"
add_nova_flag "--flat_network_bridge=xapi1"
add_nova_flag "--public_interface=eth3"
else
add_nova_flag "--flat_network_bridge=$FLAT_NETWORK_BRIDGE"
if [ -n "$FLAT_INTERFACE" ]; then
add_nova_flag "--flat_interface=$FLAT_INTERFACE"
fi
if [ -n "$MULTI_HOST" ]; then
add_nova_flag "--multi_host=$MULTI_HOST"
fi
# Nova Database
@ -712,6 +729,20 @@ if [[ "$ENABLED_SERVICES" =~ "g-reg" ]]; then
# Create a directory for the downloaded image tarballs.
mkdir -p $FILES/images
# Option to upload legacy ami-tty, which works with xenserver
if [ $UPLOAD_LEGACY_TTY ]; then
if [ ! -f $FILES/tty.tgz ]; then
wget -c http://images.ansolabs.com/tty.tgz -O $FILES/tty.tgz
fi
tar -zxf $FILES/tty.tgz -C $FILES/images
RVAL=`glance add -A $SERVICE_TOKEN name="tty-kernel" is_public=true container_format=aki disk_format=aki < $FILES/images/aki-tty/image`
KERNEL_ID=`echo $RVAL | cut -d":" -f2 | tr -d " "`
RVAL=`glance add -A $SERVICE_TOKEN name="tty-ramdisk" is_public=true container_format=ari disk_format=ari < $FILES/images/ari-tty/image`
RAMDISK_ID=`echo $RVAL | cut -d":" -f2 | tr -d " "`
glance add -A $SERVICE_TOKEN name="tty" is_public=true container_format=ami disk_format=ami kernel_id=$KERNEL_ID ramdisk_id=$RAMDISK_ID < $FILES/images/ami-tty/image
fi
for image_url in ${IMAGE_URLS//,/ }; do
# Downloads the image (uec ami+aki style), then extracts it.
IMAGE_FNAME=`echo "$image_url" | python -c "import sys; print sys.stdin.read().split('/')[-1]"`

51
tools/xen/README.md Normal file
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@ -0,0 +1,51 @@
Getting Started With XenServer 5.6 and Devstack
===============================================
The purpose of the code in this directory it to help developers bootstrap
a XenServer 5.6 + Openstack development environment. This file gives
some pointers on how to get started.
Install Xenserver
-----------------
Install XenServer 5.6 on a clean box.
Here are some sample Xenserver network settings for when you are just
getting started (I used settings like this using a lappy + cheap wifi router):
* XenServer Host IP: 192.168.1.10
* XenServer Netmask: 255.255.255.0
* XenServer Gateway: 192.168.1.1
* XenServer DNS: 192.168.1.1
Prepare DOM0
------------
At this point, your server is missing some critical software that you will
need to run devstack (like git). Do this to install required software:
./prepare_dom0.sh
This script will also clone devstack in /root/devstack
Configure your localrc
----------------------
Devstack uses a localrc for user-specific configuration. Note that while
the first 4 passwords are arbitrary, the XENAPI_PASSWORD must be your dom0
root password. And of course, use a real password if this machine is exposed.
cd /root/devstack
cat > /root/devstack/localrc <<EOF
MYSQL_PASSWORD=my_super_secret
SERVICE_TOKEN=my_super_secret
ADMIN_PASSWORD=my_super_secret
RABBIT_PASSWORD=my_super_secret
# IMPORTANT: The following must be set to your dom0 root password!
XENAPI_PASSWORD=my_super_secret
EOF
Run ./build_domU.sh
------------------
This script does a lot of stuff, it is probably best to read it in its entirety.
But in a nutshell, it performs the following:
* Configures bridges and vlans for public, private, and management nets
* Creates XVAs for a HEAD and COMPUTE host
* Launches those 2 instances into an HA FlatDHCP Configuration

288
tools/xen/build_domU.sh Executable file
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#!/bin/bash
# Abort if localrc is not set
if [ ! -e ../../localrc ]; then
echo "You must have a localrc with ALL necessary passwords defined before proceeding."
echo "See the xen README for required passwords."
exit 1
fi
# Echo commands
set -o xtrace
# Name of this guest
GUEST_NAME=${GUEST_NAME:-ALLINONE}
# dom0 ip
HOST_IP=${HOST_IP:-`ifconfig xenbr0 | grep "inet addr" | cut -d ":" -f2 | sed "s/ .*//"`}
# Our nova host's network info
MGT_IP=${MGT_IP:-172.16.100.1}
PUB_IP=${PUB_IP:-192.168.1.55}
# Public network
PUB_BR=${PUB_BR:-xenbr0}
PUB_NETMASK=${PUB_NETMASK:-255.255.255.0}
# VM network params
VM_NETMASK=${VM_NETMASK:-255.255.255.0}
VM_BR=${VM_BR:-xapi1}
VM_VLAN=${VM_VLAN:-100}
# MGMT network params
MGT_NETMASK=${MGT_NETMASK:-255.255.255.0}
MGT_BR=${MGT_BR:-xapi2}
MGT_VLAN=${MGT_VLAN:-101}
# VM Password
PASSWORD=${PASSWORD:-secrete}
# Size of image
VDI_MB=${VDI_MB:-2500}
# This directory
TOP_DIR=$(cd $(dirname "$0") && pwd)
# Make sure we have git
if ! which git; then
GITDIR=/tmp/git-1.7.7
cd /tmp
rm -rf $GITDIR*
wget http://git-core.googlecode.com/files/git-1.7.7.tar.gz
tar xfv git-1.7.7.tar.gz
cd $GITDIR
./configure
make install
cd $TOP_DIR
fi
# Helper to create networks
function create_network() {
if ! xe network-list | grep bridge | grep -q $1; then
echo "Creating bridge $1"
xe network-create name-label=$1
fi
}
# Create host, vm, mgmt, pub networks
create_network xapi0
create_network $VM_BR
create_network $MGT_BR
create_network $PUB_BR
# Get the uuid for our physical (public) interface
PIF=`xe pif-list --minimal device=eth0`
# Create networks/bridges for vm and management
VM_NET=`xe network-list --minimal bridge=$VM_BR`
MGT_NET=`xe network-list --minimal bridge=$MGT_BR`
# Helper to create vlans
function create_vlan() {
pif=$1
vlan=$2
net=$3
if ! xe vlan-list | grep tag | grep -q $vlan; then
xe vlan-create pif-uuid=$pif vlan=$vlan network-uuid=$net
fi
}
# Create vlans for vm and management
create_vlan $PIF $VM_VLAN $VM_NET
create_vlan $PIF $MGT_VLAN $MGT_NET
# Setup host-only nat rules
HOST_NET=169.254.0.0/16
if ! iptables -L -v -t nat | grep -q $HOST_NET; then
iptables -t nat -A POSTROUTING -s $HOST_NET -j SNAT --to-source $HOST_IP
iptables -I FORWARD 1 -s $HOST_NET -j ACCEPT
/etc/init.d/iptables save
fi
# Set up ip forwarding
if ! grep -q "FORWARD_IPV4=YES" /etc/sysconfig/network; then
# FIXME: This doesn't work on reboot!
echo "FORWARD_IPV4=YES" >> /etc/sysconfig/network
fi
# Also, enable ip forwarding in rc.local, since the above trick isn't working
if ! grep -q "echo 1 >/proc/sys/net/ipv4/ip_forward" /etc/rc.local; then
echo "echo 1 >/proc/sys/net/ipv4/ip_forward" >> /etc/rc.local
fi
# Enable ip forwarding at runtime as well
echo 1 > /proc/sys/net/ipv4/ip_forward
# Directory where we stage the build
STAGING_DIR=$TOP_DIR/stage
# Option to clean out old stuff
CLEAN=${CLEAN:-0}
if [ "$CLEAN" = "1" ]; then
rm -rf $STAGING_DIR
fi
# Download our base image. This image is made using prepare_guest.sh
BASE_IMAGE_URL=${BASE_IMAGE_URL:-http://images.ansolabs.com/xen/stage.tgz}
if [ ! -e $STAGING_DIR ]; then
if [ ! -e /tmp/stage.tgz ]; then
wget $BASE_IMAGE_URL -O /tmp/stage.tgz
fi
tar xfz /tmp/stage.tgz
cd $TOP_DIR
fi
# Free up precious disk space
rm -f /tmp/stage.tgz
# Make sure we have a stage
if [ ! -d $STAGING_DIR/etc ]; then
echo "Stage is not properly set up!"
exit 1
fi
# Directory where our conf files are stored
FILES_DIR=$TOP_DIR/files
# Directory for supporting script files
SCRIPT_DIR=$TOP_DIR/scripts
# Version of ubuntu with which we are working
UBUNTU_VERSION=`cat $STAGING_DIR/etc/lsb-release | grep "DISTRIB_CODENAME=" | sed "s/DISTRIB_CODENAME=//"`
KERNEL_VERSION=`ls $STAGING_DIR/boot/vmlinuz* | head -1 | sed "s/.*vmlinuz-//"`
# Setup fake grub
rm -rf $STAGING_DIR/boot/grub/
mkdir -p $STAGING_DIR/boot/grub/
cp $FILES_DIR/menu.lst.in $STAGING_DIR/boot/grub/menu.lst
sed -e "s,@KERNEL_VERSION@,$KERNEL_VERSION,g" -i $STAGING_DIR/boot/grub/menu.lst
# Setup fstab, tty, and other system stuff
cp $FILES_DIR/fstab $STAGING_DIR/etc/fstab
cp $FILES_DIR/hvc0.conf $STAGING_DIR/etc/init/
# Put the VPX into UTC.
rm -f $STAGING_DIR/etc/localtime
# Helper to set hostname
function set_hostname() {
echo $1 > $STAGING_DIR/etc/hostname
}
# We need a resolvable host name for rabbit to launch
if ! grep -q $GUEST_NAME $STAGING_DIR/etc/hosts; then
echo "$MGT_IP $GUEST_NAME" >> $STAGING_DIR/etc/hosts
fi
# Configre hosts file
cat <<EOF >$STAGING_DIR/etc/hosts
$MGT_IP $GUEST_NAME
127.0.0.1 localhost localhost.localdomain
EOF
# Configure dns (use same dns as dom0)
cp /etc/resolv.conf $STAGING_DIR/etc/resolv.conf
# Copy over devstack
rm -f /tmp/devstack.tar
tar --exclude='stage' --exclude='xen/xvas' --exclude='xen/nova' -cvf /tmp/devstack.tar $TOP_DIR/../../../devstack
cd $STAGING_DIR/opt/stack/
tar xf /tmp/devstack.tar
cd $TOP_DIR
# Configure OVA
VDI_SIZE=$(($VDI_MB*1024*1024))
PRODUCT_BRAND=${PRODUCT_BRAND:-openstack}
PRODUCT_VERSION=${PRODUCT_VERSION:-001}
BUILD_NUMBER=${BUILD_NUMBER:-001}
LABEL="$PRODUCT_BRAND $PRODUCT_VERSION-$BUILD_NUMBER"
OVA=$STAGING_DIR/tmp/ova.xml
cp templates/ova.xml.in $OVA
sed -e "s,@VDI_SIZE@,$VDI_SIZE,g" -i $OVA
sed -e "s,@PRODUCT_BRAND@,$PRODUCT_BRAND,g" -i $OVA
sed -e "s,@PRODUCT_VERSION@,$PRODUCT_VERSION,g" -i $OVA
sed -e "s,@BUILD_NUMBER@,$BUILD_NUMBER,g" -i $OVA
# Directory for xvas
XVA_DIR=$TOP_DIR/xvas
# Create xva dir
mkdir -p $XVA_DIR
# Clean nova if desired
if [ "$CLEAN" = "1" ]; then
rm -rf $TOP_DIR/nova
fi
# Checkout nova
if [ ! -d $TOP_DIR/nova ]; then
git clone git://github.com/cloudbuilders/nova.git
git checkout diablo
fi
# Run devstack on launch
cat <<EOF >$STAGING_DIR/etc/rc.local
STAGING_DIR=/ DO_TGZ=0 bash /opt/stack/devstack/tools/xen/prepare_guest.sh
STAGING_DIR=/ DO_TGZ=0 bash /opt/stack/devstack/tools/xen/prepare_guest.sh
su -c "/opt/stack/run.sh > /opt/stack/run.sh.log" stack
exit 0
EOF
# Install plugins
cp -pr $TOP_DIR/nova/plugins/xenserver/xenapi/etc/xapi.d /etc/
chmod a+x /etc/xapi.d/plugins/*
yum --enablerepo=base install -y parted
mkdir -p /boot/guest
# Set local storage il8n
SR_UUID=`xe sr-list --minimal name-label="Local storage"`
xe sr-param-set uuid=$SR_UUID other-config:i18n-key=local-storage
# Uninstall previous runs
xe vm-list --minimal name-label="$LABEL" | xargs ./scripts/uninstall-os-vpx.sh
# Destroy any instances that were launched
for uuid in `xe vm-list | grep -1 instance | grep uuid | sed "s/.*\: //g"`; do
echo "Shutting down nova instance $uuid"
xe vm-shutdown uuid=$uuid
xe vm-destroy uuid=$uuid
done
# Path to head xva. By default keep overwriting the same one to save space
USE_SEPARATE_XVAS=${USE_SEPARATE_XVAS:-0}
if [ "$USE_SEPARATE_XVAS" = "0" ]; then
XVA=$XVA_DIR/$UBUNTU_VERSION.xva
else
XVA=$XVA_DIR/$UBUNTU_VERSION.$GUEST_NAME.xva
fi
# Clean old xva. In the future may not do this every time.
rm -f $XVA
# Configure the network
set_hostname $GUEST_NAME
INTERFACES=$STAGING_DIR/etc/network/interfaces
cp templates/interfaces.in $INTERFACES
sed -e "s,@ETH1_NETMASK@,$VM_NETMASK,g" -i $INTERFACES
sed -e "s,@ETH2_IP@,$MGT_IP,g" -i $INTERFACES
sed -e "s,@ETH2_NETMASK@,$MGT_NETMASK,g" -i $INTERFACES
sed -e "s,@ETH3_IP@,$PUB_IP,g" -i $INTERFACES
sed -e "s,@ETH3_NETMASK@,$PUB_NETMASK,g" -i $INTERFACES
# Configure run.sh
cat <<EOF >$STAGING_DIR/opt/stack/run.sh
#!/bin/bash
cd /opt/stack/devstack
killall screen
UPLOAD_LEGACY_TTY=yes HOST_IP=$PUB_IP VIRT_DRIVER=xenserver FORCE=yes MULTI_HOST=1 $STACKSH_PARAMS ./stack.sh
EOF
chmod 755 $STAGING_DIR/opt/stack/run.sh
# Create xva
if [ ! -e $XVA ]; then
rm -rf /tmp/mkxva*
UID=0 $SCRIPT_DIR/mkxva -o $XVA -t xva -x $OVA $STAGING_DIR $VDI_MB /tmp/
fi
# Start guest
$TOP_DIR/scripts/install-os-vpx.sh -f $XVA -v $VM_BR -m $MGT_BR -p $PUB_BR

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tools/xen/files/fstab Normal file
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LABEL=vpxroot / ext3 defaults 1 1
tmpfs /dev/shm tmpfs defaults 0 0
devpts /dev/pts devpts gid=5,mode=620 0 0
sysfs /sys sysfs defaults 0 0
proc /proc proc defaults 0 0

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tools/xen/files/hvc0.conf Normal file
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# hvc0 - getty
#
# This service maintains a getty on hvc0 from the point the system is
# started until it is shut down again.
start on stopped rc RUNLEVEL=[2345]
stop on runlevel [!2345]
respawn
exec /sbin/getty -8 9600 hvc0

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tools/xen/prepare_dom0.sh Executable file
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#!/bin/sh
set -o xtrace
set -o errexit
# Install basics for vi and git
yum -y --enablerepo=base install gcc make vim-enhanced zlib-devel openssl-devel
# Simple but usable vimrc
if [ ! -e /root/.vimrc ]; then
cat > /root/.vimrc <<EOF
syntax on
se ts=4
se expandtab
se shiftwidth=4
EOF
fi
# Use the pretty vim
if [ -e /usr/bin/vim ]; then
rm /bin/vi
ln -s /usr/bin/vim /bin/vi
fi
# Install git
if ! which git; then
DEST=/tmp/
GITDIR=$DEST/git-1.7.7
cd $DEST
rm -rf $GITDIR*
wget http://git-core.googlecode.com/files/git-1.7.7.tar.gz
tar xfv git-1.7.7.tar.gz
cd $GITDIR
./configure
make install
fi
# Clone devstack
DEVSTACK=/root/devstack
if [ ! -d $DEVSTACK ]; then
git clone git://github.com/cloudbuilders/devstack.git $DEVSTACK
fi

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#!/bin/bash
# Configurable nuggets
PASSWORD=${PASSWORD:-secrete}
STAGING_DIR=${STAGING_DIR:-stage}
DO_TGZ=${DO_TGZ:-1}
KERNEL_VERSION=3.0.0-12-virtual
# Debootstrap base system
if [ ! -d $STAGING_DIR ]; then
apt-get install debootstrap
debootstrap --arch amd64 oneiric $STAGING_DIR http://us.archive.ubuntu.com/ubuntu/
fi
# Sources.list
cat <<EOF >$STAGING_DIR/etc/apt/sources.list
deb http://us.archive.ubuntu.com/ubuntu/ oneiric main restricted
deb-src http://us.archive.ubuntu.com/ubuntu/ oneiric main restricted
deb http://us.archive.ubuntu.com/ubuntu/ oneiric-updates main restricted
deb-src http://us.archive.ubuntu.com/ubuntu/ oneiric-updates main restricted
deb http://us.archive.ubuntu.com/ubuntu/ oneiric universe
deb http://us.archive.ubuntu.com/ubuntu/ oneiric-updates universe
deb http://us.archive.ubuntu.com/ubuntu/ oneiric multiverse
deb http://us.archive.ubuntu.com/ubuntu/ oneiric-updates multiverse
EOF
# Install basics
chroot $STAGING_DIR apt-get update
chroot $STAGING_DIR apt-get install -y linux-image-$KERNEL_VERSION
chroot $STAGING_DIR apt-get install -y cracklib-runtime curl wget ssh openssh-server tcpdump ethtool
chroot $STAGING_DIR apt-get install -y curl wget ssh openssh-server python-pip git vim-nox sudo
chroot $STAGING_DIR pip install xenapi
# Install guest utilities
XEGUEST=xe-guest-utilities_5.6.100-651_amd64.deb
wget http://images.ansolabs.com/xen/$XEGUEST -O $XEGUEST
cp $XEGUEST $STAGING_DIR/root
chroot $STAGING_DIR dpkg -i /root/$XEGUEST
chroot $STAGING_DIR update-rc.d -f xe-linux-distribution remove
chroot $STAGING_DIR update-rc.d xe-linux-distribution defaults
# Make a small cracklib dictionary, so that passwd still works, but we don't
# have the big dictionary.
mkdir -p $STAGING_DIR/usr/share/cracklib
echo a | chroot $STAGING_DIR cracklib-packer
# Make /etc/shadow, and set the root password
chroot $STAGING_DIR "pwconv"
echo "root:$PASSWORD" | chroot $STAGING_DIR chpasswd
# Put the VPX into UTC.
rm -f $STAGING_DIR/etc/localtime
# Add stack user
chroot $STAGING_DIR groupadd libvirtd
chroot $STAGING_DIR useradd stack -s /bin/bash -d /opt/stack -G libvirtd
echo stack:$PASSWORD | chroot $STAGING_DIR chpasswd
echo "stack ALL=(ALL) NOPASSWD: ALL" >> $STAGING_DIR/etc/sudoers
# Give ownership of /opt/stack to stack user
chroot $STAGING_DIR chown -R stack /opt/stack
# Make our ip address hostnames look nice at the command prompt
echo "export PS1='${debian_chroot:+($debian_chroot)}\\u@\\H:\\w\\$ '" >> $STAGING_DIR/opt/stack/.bashrc
echo "export PS1='${debian_chroot:+($debian_chroot)}\\u@\\H:\\w\\$ '" >> $STAGING_DIR/root/.bashrc
echo "export PS1='${debian_chroot:+($debian_chroot)}\\u@\\H:\\w\\$ '" >> $STAGING_DIR/etc/profile
function setup_vimrc {
if [ ! -e $1 ]; then
# Simple but usable vimrc
cat > $1 <<EOF
syntax on
se ts=4
se expandtab
se shiftwidth=4
EOF
fi
}
# Setup simple .vimrcs
setup_vimrc $STAGING_DIR/root/.vimrc
setup_vimrc $STAGING_DIR/opt/stack/.vimrc
if [ "$DO_TGZ" = "1" ]; then
# Compress
rm -f stage.tgz
tar cfz stage.tgz stage
fi

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#!/bin/bash
#
# Copyright (c) 2011 Citrix Systems, Inc.
# Copyright 2011 OpenStack LLC.
# Copyright (C) 2011 Nicira, Inc
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
#
set -eux
. /etc/xensource-inventory
NAME="XenServer OpenStack VPX"
DATA_VDI_SIZE="500MiB"
BRIDGE_M=
BRIDGE_P=
KERNEL_PARAMS=
VPX_FILE=os-vpx.xva
AS_TEMPLATE=
FROM_TEMPLATE=
RAM=
WAIT_FOR_NETWORK=
BALLOONING=
usage()
{
cat << EOF
Usage: $0 [-f FILE_PATH] [-d DISK_SIZE] [-v BRIDGE_NAME] [-m BRIDGE_NAME] [-p BRIDGE_NAME]
[-k PARAMS] [-r RAM] [-i|-c] [-w] [-b]
Installs XenServer OpenStack VPX.
OPTIONS:
-h Shows this message.
-i Install OpenStack VPX as template.
-c Clone from existing template.
-w Wait for the network settings to show up before exiting.
-b Enable memory ballooning. When set min_RAM=RAM/2 max_RAM=RAM.
-f path Specifies the path to the XVA.
Default to ./os-vpx.xva.
-d disk-size Specifies the size in MiB for the data disk.
Defaults to 500 MiB.
-m bridge Specifies the bridge for the isolated management network.
Defaults to xenbr0.
-v bridge Specifies the bridge for the vm network
-p bridge Specifies the bridge for the externally facing network.
-k params Specifies kernel parameters.
-r MiB Specifies RAM used by the VPX, in MiB.
By default it will take the value from the XVA.
EXAMPLES:
Create a VPX that connects to the isolated management network using the
default bridge with a data disk of 1GiB:
install-os-vpx.sh -f /root/os-vpx-devel.xva -d 1024
Create a VPX that connects to the isolated management network using xenbr1
as bridge:
install-os-vpx.sh -m xenbr1
Create a VPX that connects to both the management and public networks
using xenbr1 and xapi4 as bridges:
install-os-vpx.sh -m xenbr1 -p xapi4
Create a VPX that connects to both the management and public networks
using the default for management traffic:
install-os-vpx.sh -m xapi4
Create a VPX that automatically becomes the master:
install-os-vpx.sh -k geppetto_master=true
EOF
}
get_params()
{
while getopts "hicwbf:d:v:m:p:k:r:" OPTION;
do
case $OPTION in
h) usage
exit 1
;;
i)
AS_TEMPLATE=1
;;
c)
FROM_TEMPLATE=1
;;
w)
WAIT_FOR_NETWORK=1
;;
b)
BALLOONING=1
;;
f)
VPX_FILE=$OPTARG
;;
d)
DATA_VDI_SIZE="${OPTARG}MiB"
;;
m)
BRIDGE_M=$OPTARG
;;
p)
BRIDGE_P=$OPTARG
;;
k)
KERNEL_PARAMS=$OPTARG
;;
r)
RAM=$OPTARG
;;
v)
BRIDGE_V=$OPTARG
;;
?)
usage
exit
;;
esac
done
if [[ -z $BRIDGE_M ]]
then
BRIDGE_M=xenbr0
fi
}
xe_min()
{
local cmd="$1"
shift
xe "$cmd" --minimal "$@"
}
get_dest_sr()
{
IFS=,
sr_uuids=$(xe sr-list --minimal other-config:i18n-key=local-storage)
dest_sr=""
for sr_uuid in $sr_uuids
do
pbd=$(xe pbd-list --minimal sr-uuid=$sr_uuid host-uuid=$INSTALLATION_UUID)
if [ "$pbd" ]
then
echo "$sr_uuid"
unset IFS
return
fi
done
unset IFS
dest_sr=$(xe_min sr-list uuid=$(xe_min pool-list params=default-SR))
if [ "$dest_sr" = "" ]
then
echo "No local storage and no default storage; cannot import VPX." >&2
exit 1
else
echo "$dest_sr"
fi
}
find_network()
{
result=$(xe_min network-list bridge="$1")
if [ "$result" = "" ]
then
result=$(xe_min network-list name-label="$1")
fi
echo "$result"
}
find_template()
{
xe_min template-list other-config:os-vpx=true
}
renumber_system_disk()
{
local v="$1"
local vdi_uuid=$(xe_min vbd-list vm-uuid="$v" type=Disk userdevice=xvda \
params=vdi-uuid)
if [ "$vdi_uuid" ]
then
local vbd_uuid=$(xe_min vbd-list vm-uuid="$v" vdi-uuid="$vdi_uuid")
xe vbd-destroy uuid="$vbd_uuid"
local new_vbd_uuid=$(xe vbd-create vm-uuid="$v" vdi-uuid="$vdi_uuid" \
device=0 bootable=true type=Disk)
xe vbd-param-set other-config:owner uuid="$new_vbd_uuid"
fi
}
create_vif()
{
xe vif-create vm-uuid="$1" network-uuid="$2" device="$3"
}
create_gi_vif()
{
local v="$1"
# Note that we've made the outbound device eth1, so that it comes up after
# the guest installer VIF, which means that the outbound one wins in terms
# of gateway.
local gi_network_uuid=$(xe_min network-list \
other-config:is_guest_installer_network=true)
create_vif "$v" "$gi_network_uuid" "0" >/dev/null
}
create_vm_vif()
{
local v="$1"
echo "Installing management interface on $BRIDGE_V."
local out_network_uuid=$(find_network "$BRIDGE_V")
create_vif "$v" "$out_network_uuid" "1" >/dev/null
}
create_management_vif()
{
local v="$1"
echo "Installing management interface on $BRIDGE_M."
local out_network_uuid=$(find_network "$BRIDGE_M")
create_vif "$v" "$out_network_uuid" "2" >/dev/null
}
# This installs the interface for public traffic, only if a bridge is specified
# The interface is not configured at this stage, but it will be, once the admin
# tasks are complete for the services of this VPX
create_public_vif()
{
local v="$1"
if [[ -z $BRIDGE_P ]]
then
echo "Skipping installation of interface for public traffic."
else
echo "Installing public interface on $BRIDGE_P."
pub_network_uuid=$(find_network "$BRIDGE_P")
create_vif "$v" "$pub_network_uuid" "3" >/dev/null
fi
}
label_system_disk()
{
local v="$1"
local vdi_uuid=$(xe_min vbd-list vm-uuid="$v" type=Disk userdevice=0 \
params=vdi-uuid)
xe vdi-param-set \
name-label="$NAME system disk" \
other-config:os-vpx=true \
uuid=$vdi_uuid
}
create_data_disk()
{
local v="$1"
local sys_vdi_uuid=$(xe_min vbd-list vm-uuid="$v" type=Disk params=vdi-uuid)
local data_vdi_uuid=$(xe_min vdi-list other-config:os-vpx-data=true)
if echo "$data_vdi_uuid" | grep -q ,
then
echo "Multiple data disks found -- assuming that you want a new one."
data_vdi_uuid=""
else
data_in_use=$(xe_min vbd-list vdi-uuid="$data_vdi_uuid")
if [ "$data_in_use" != "" ]
then
echo "Data disk already in use -- will create another one."
data_vdi_uuid=""
fi
fi
if [ "$data_vdi_uuid" = "" ]
then
echo -n "Creating new data disk ($DATA_VDI_SIZE)... "
sr_uuid=$(xe_min vdi-list params=sr-uuid uuid="$sys_vdi_uuid")
data_vdi_uuid=$(xe vdi-create name-label="$NAME data disk" \
sr-uuid="$sr_uuid" \
type=user \
virtual-size="$DATA_VDI_SIZE")
xe vdi-param-set \
other-config:os-vpx-data=true \
uuid="$data_vdi_uuid"
dom0_uuid=$(xe_min vm-list is-control-domain=true)
vbd_uuid=$(xe vbd-create device=autodetect type=Disk \
vdi-uuid="$data_vdi_uuid" vm-uuid="$dom0_uuid")
xe vbd-plug uuid=$vbd_uuid
dev=$(xe_min vbd-list params=device uuid=$vbd_uuid)
mke2fs -q -j -m0 /dev/$dev
e2label /dev/$dev vpxstate
xe vbd-unplug uuid=$vbd_uuid
xe vbd-destroy uuid=$vbd_uuid
else
echo -n "Attaching old data disk... "
fi
vbd_uuid=$(xe vbd-create device=2 type=Disk \
vdi-uuid="$data_vdi_uuid" vm-uuid="$v")
xe vbd-param-set other-config:os-vpx-data=true uuid=$vbd_uuid
echo "done."
}
set_kernel_params()
{
local v="$1"
local args=$KERNEL_PARAMS
local cmdline=$(cat /proc/cmdline)
for word in $cmdline
do
if echo "$word" | grep -q "geppetto"
then
args="$word $args"
fi
done
if [ "$args" != "" ]
then
echo "Passing Geppetto args to VPX: $args."
xe vm-param-set PV-args="$args" uuid="$v"
fi
}
set_memory()
{
local v="$1"
if [ "$RAM" != "" ]
then
echo "Setting RAM to $RAM MiB."
[ "$BALLOONING" == 1 ] && RAM_MIN=$(($RAM / 2)) || RAM_MIN=$RAM
xe vm-memory-limits-set static-min=16MiB static-max=${RAM}MiB \
dynamic-min=${RAM_MIN}MiB dynamic-max=${RAM}MiB \
uuid="$v"
fi
}
# Make the VM auto-start on server boot.
set_auto_start()
{
local v="$1"
xe vm-param-set uuid="$v" other-config:auto_poweron=true
}
set_all()
{
local v="$1"
set_kernel_params "$v"
set_memory "$v"
set_auto_start "$v"
label_system_disk "$v"
create_gi_vif "$v"
create_vm_vif "$v"
create_management_vif "$v"
create_public_vif "$v"
}
log_vifs()
{
local v="$1"
(IFS=,
for vif in $(xe_min vif-list vm-uuid="$v")
do
dev=$(xe_min vif-list uuid="$vif" params=device)
mac=$(xe_min vif-list uuid="$vif" params=MAC | sed -e 's/:/-/g')
echo "eth$dev has MAC $mac."
done
unset IFS) | sort
}
destroy_vifs()
{
local v="$1"
IFS=,
for vif in $(xe_min vif-list vm-uuid="$v")
do
xe vif-destroy uuid="$vif"
done
unset IFS
}
get_params "$@"
thisdir=$(dirname "$0")
if [ "$FROM_TEMPLATE" ]
then
template_uuid=$(find_template)
name=$(xe_min template-list params=name-label uuid="$template_uuid")
echo -n "Cloning $name... "
vm_uuid=$(xe vm-clone vm="$template_uuid" new-name-label="$name")
xe vm-param-set is-a-template=false uuid="$vm_uuid"
echo $vm_uuid.
destroy_vifs "$vm_uuid"
set_all "$vm_uuid"
else
if [ ! -f "$VPX_FILE" ]
then
# Search $thisdir/$VPX_FILE too. In particular, this is used when
# installing the VPX from the supp-pack, because we want to be able to
# invoke this script from the RPM and the firstboot script.
if [ -f "$thisdir/$VPX_FILE" ]
then
VPX_FILE="$thisdir/$VPX_FILE"
else
echo "$VPX_FILE does not exist." >&2
exit 1
fi
fi
echo "Found OS-VPX File: $VPX_FILE. "
dest_sr=$(get_dest_sr)
echo -n "Installing $NAME... "
vm_uuid=$(xe vm-import filename=$VPX_FILE sr-uuid="$dest_sr")
echo $vm_uuid.
renumber_system_disk "$vm_uuid"
nl=$(xe_min vm-list params=name-label uuid=$vm_uuid)
xe vm-param-set \
"name-label=${nl/ import/}" \
other-config:os-vpx=true \
uuid=$vm_uuid
set_all "$vm_uuid"
create_data_disk "$vm_uuid"
if [ "$AS_TEMPLATE" ]
then
xe vm-param-set uuid="$vm_uuid" is-a-template=true \
other-config:instant=true
echo -n "Installing VPX from template... "
vm_uuid=$(xe vm-clone vm="$vm_uuid" new-name-label="${nl/ import/}")
xe vm-param-set is-a-template=false uuid="$vm_uuid"
echo "$vm_uuid."
fi
fi
log_vifs "$vm_uuid"
echo -n "Starting VM... "
xe vm-start uuid=$vm_uuid
echo "done."
show_ip()
{
ip_addr=$(echo "$1" | sed -n "s,^.*"$2"/ip: \([^;]*\).*$,\1,p")
echo -n "IP address for $3: "
if [ "$ip_addr" = "" ]
then
echo "did not appear."
else
echo "$ip_addr."
fi
}
if [ "$WAIT_FOR_NETWORK" ]
then
echo "Waiting for network configuration... "
i=0
while [ $i -lt 600 ]
do
ip=$(xe_min vm-list params=networks uuid=$vm_uuid)
if [ "$ip" != "<not in database>" ]
then
show_ip "$ip" "1" "$BRIDGE_M"
if [[ $BRIDGE_P ]]
then
show_ip "$ip" "2" "$BRIDGE_P"
fi
echo "Installation complete."
exit 0
fi
sleep 10
let i=i+1
done
fi

366
tools/xen/scripts/mkxva Executable file
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#!/bin/bash
#
# Copyright (c) 2011 Citrix Systems, Inc.
# Copyright 2011 OpenStack LLC.
# Copyright (C) 2011 Nicira, Inc
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
#
set -eu
set -o xtrace
VBOX_IMG=/output/packages/vbox-img
usage() {
cat >&2 <<EOF
$0 -o <output filenames> -t <types> -x <xml files> <fs-staging-dir> <fs-size-MiB> <tmpdir>
-o: Colon-separated list of output filenames (one for each type).
-p: Create a disk label and partition within the output image
-t: Colon-separated list of types of output file. xva and ovf supported.
-x: XML filenames (one for each type)
EOF
exit 1
}
# parse cmdline
OPT_USE_PARTITION=
OPT_TYPES=
OPT_OUTPUT_FILES=
OPT_XML_FILES=
while getopts o:pt:x: o
do case "$o" in
o) OPT_OUTPUT_FILES=$(echo "$OPTARG" | sed -e 's/\s*:\s*/ /g')
;;
p) OPT_USE_PARTITION=1
;;
t) OPT_TYPES=$(echo "$OPTARG" | sed -e 's/\s*:\s*/ /g')
;;
x) OPT_XML_FILES=$(echo "$OPTARG" | sed -e 's/\s*:\s*/ /g')
;;
[?]) usage
;;
esac
done
shift $((OPTIND-1))
[ $# -ne 3 ] && usage
FS_STAGING="$1"
FS_SIZE_MIB="$2"
TMPDIR="$3"
if [ "$UID" = "0" ]
then
SUDO=
else
SUDO=sudo
fi
if [ "$FS_SIZE_MIB" = "0" ]
then
# Just create a dummy file. This allows developers to bypass bits of
# the build by setting the size to 0.
touch $OPT_OUTPUT_FILES
exit 0
fi
# create temporary files and dirs
FS_TMPFILE=$(mktemp "$TMPDIR/mkxva-fsimg-XXXXX")
XVA_TARBALL_STAGING=$(mktemp -d "$TMPDIR/mkxva-tarball-staging-XXXXX")
OVF_STAGING=$(mktemp -d "$TMPDIR/mkxva-ovf-staging-XXXXX")
# Find udevsettle and udevtrigger on this installation
if [ -x "/sbin/udevsettle" ] ; then
UDEVSETTLE="/sbin/udevsettle --timeout=30"
elif [ -x "/sbin/udevadm" ] ; then
UDEVSETTLE='/sbin/udevadm settle'
else
UDEVSETTLE='/bin/true'
fi
if [ -x "/sbin/udevtrigger" ] ; then
UDEVTRIGGER=/sbin/udevtrigger
elif [ -x "/sbin/udevadm" ] ; then
UDEVTRIGGER='/sbin/udevadm trigger'
else
UDEVTRIGGER=
fi
# CLEAN_ variables track devices and mounts that must be taken down
# no matter how the script exits. Loop devices are vulnerable to
# exhaustion so we make every effort to remove them
CLEAN_KPARTX=
CLEAN_LOSETUP=
CLEAN_MOUNTPOINT=
cleanup_devices () {
if [ -n "$CLEAN_MOUNTPOINT" ] ; then
echo "Mountpoint $CLEAN_MOUNTPOINT removed on abnormal exit"
$SUDO umount "$CLEAN_MOUNTPOINT" || echo "umount failed"
rmdir "$CLEAN_MOUNTPOINT" || echo "rmdir failed"
fi
if [ -n "$CLEAN_KPARTX" ] ; then
echo "kpartx devices for $CLEAN_KPARTX removed on abnormal exit"
$SUDO kpartx -d "$CLEAN_KPARTX" || echo "kpartx -d failed"
fi
if [ -n "$CLEAN_LOSETUP" ] ; then
echo "Loop device $CLEAN_LOSETUP removed on abnormal exit"
$SUDO losetup -d "$CLEAN_LOSETUP" # Allow losetup errors to propagate
fi
}
trap "cleanup_devices" EXIT
make_fs_inner () {
local staging="$1"
local output="$2"
local options="$3"
CLEAN_MOUNTPOINT=$(mktemp -d "$TMPDIR/mkfs-XXXXXX")
# copy staging dir contents to fs image
$SUDO mount $options "$output" "$CLEAN_MOUNTPOINT"
$SUDO tar -C "$staging" -c . | tar -C "$CLEAN_MOUNTPOINT" -x
$SUDO umount "$CLEAN_MOUNTPOINT"
rmdir "$CLEAN_MOUNTPOINT"
CLEAN_MOUNTPOINT=
}
# Turn a staging dir into an ext3 filesystem within a partition
make_fs_in_partition () {
local staging="$1"
local output="$2"
# create new empty disk
dd if=/dev/zero of="$output" bs=1M count=$FS_SIZE_MIB
# Set up a loop device on the empty disk image
local loopdevice=$($SUDO losetup -f)
$SUDO losetup "$loopdevice" "$output"
CLEAN_LOSETUP="$loopdevice"
# Create a partition table and single partition.
# Start partition at sector 63 to allow space for grub
cat <<EOF
Errors from sfdisk below are expected because the new disk is uninitialised
Expecting: sfdisk: ERROR: sector 0 does not have an msdos signature
Expecting: /dev/loop0: unrecognized partition table type
EOF
$SUDO sfdisk -uS "$CLEAN_LOSETUP" <<EOF
63 - - *
EOF
# kpartx creates a device for the new partition
# in the form /dev/mapper/loop1p1
$SUDO kpartx -av "$CLEAN_LOSETUP"
CLEAN_KPARTX="$CLEAN_LOSETUP"
# Wait for the device to appear
$UDEVTRIGGER
$UDEVSETTLE || echo "udev settle command return code non-zero"
# Infer the name of the partition device
local partition="${CLEAN_LOSETUP/dev/dev/mapper}p1"
# Set permissive privileges on the device
$SUDO chmod 0777 "$partition"
# Make an ext3 filesystem on the partition
/sbin/mkfs.ext3 -I 128 -m0 -F "$partition"
/sbin/e2label "$partition" vpxroot
make_fs_inner "$staging" "$partition" ""
# Now run grub on the image we've created
CLEAN_MOUNTPOINT=$(mktemp -d "$TMPDIR/mkfs-XXXXXX")
# copy Set up[ grub files prior to installing grub within the image
$SUDO mount "$partition" "$CLEAN_MOUNTPOINT"
$SUDO cp $CLEAN_MOUNTPOINT/usr/share/grub/i386-redhat/* "$CLEAN_MOUNTPOINT/boot/grub"
kernel_version=$($SUDO chroot "$CLEAN_MOUNTPOINT" rpm -qv kernel | sed -e 's/kernel-//')
kernel_version_xen=$($SUDO chroot "$CLEAN_MOUNTPOINT" rpm -qv kernel-xen | sed -e 's/kernel-xen-//')
$SUDO cat > "$CLEAN_MOUNTPOINT/boot/grub/grub.conf" <<EOF
default 0
timeout 2
title vmlinuz-$kernel_version (HVM)
root (hd0,0)
kernel /boot/vmlinuz-$kernel_version ro root=LABEL=vpxroot
initrd /boot/initrd-$kernel_version.img
title vmlinuz-${kernel_version_xen}xen (PV)
root (hd0,0)
kernel /boot/vmlinuz-${kernel_version_xen}xen ro root=LABEL=vpxroot console=xvc0
initrd /boot/initrd-${kernel_version_xen}xen.img
EOF
$SUDO umount "$CLEAN_MOUNTPOINT"
CLEAN_MOUNTPOINT=
# Grub expects a disk with name /dev/xxxx with a first partition
# named /dev/xxxx1, so we give it what it wants using symlinks
# Note: /dev is linked to the real /dev of the build machine, so
# must be cleaned up
local disk_name="/dev/osxva$$bld"
local disk_part1_name="${disk_name}1"
rm -f "$disk_name"
rm -f "$disk_part1_name"
ln -s "$CLEAN_LOSETUP" "$disk_name"
ln -s "$partition" "$disk_part1_name"
# Feed commands into the grub shell to setup the disk
grub --no-curses --device-map=/dev/null <<EOF
device (hd0) $disk_name
setup (hd0) (hd0,0)
quit
EOF
# Cleanup
rm -f "$disk_name"
rm -f "$disk_part1_name"
$SUDO kpartx -dv "$CLEAN_KPARTX"
CLEAN_KPARTX=
$SUDO losetup -d "$CLEAN_LOSETUP"
CLEAN_LOSETUP=
}
# turn a staging dir into an ext3 filesystem image
make_fs () {
local staging="$1"
local output="$2"
# create new empty fs
dd if=/dev/zero of="$output" bs=1M count=0 seek=$FS_SIZE_MIB
/sbin/mkfs.ext3 -m0 -F "$output"
/sbin/e2label "$output" vpxroot
make_fs_inner "$staging" "$output" "-oloop"
}
# split a virtual disk image into the format expected inside an xva file
splitvdi () {
local diskimg="$1"
local outputdir="$2"
local rio="$3"
local n_bytes=$(stat --printf=%s "$diskimg")
local n_meg=$((($n_bytes+$((1024*1024 -1)))/$((1024*1024))))
local i=0
while [ $i -lt $n_meg ] ; do
if [ $rio -eq 0 ] ; then
local file="$outputdir"/chunk-$(printf "%08d" $i)
dd if="$diskimg" of="$file" skip=$i bs=1M count=1 2>/dev/null
gzip "$file"
else
local file="$outputdir"/$(printf "%08d" $i)
dd if="$diskimg" of="$file" skip=$i bs=1M count=1 2>/dev/null
local chksum=$(sha1sum -b "$file")
echo -n "${chksum/ */}" > "$file.checksum"
fi
i=$(($i + 1))
done
}
if [ -n "$OPT_USE_PARTITION" ] ; then
make_fs_in_partition "$FS_STAGING" "$FS_TMPFILE"
else
make_fs "$FS_STAGING" "$FS_TMPFILE"
fi
VDI_SIZE=$(stat --format=%s "$FS_TMPFILE")
make_xva () {
local output_file="$1"
local xml_file="$2"
local subdir
local rio
if [[ `cat $xml_file` =~ "<member>\s*<name>class</name>\s*<value>VDI</value>\s*</member>\s*<member>\s*<name>id</name>\s*<value>(Ref:[0-9]+)</value>" ]]
then
# it's a rio style xva
subdir="${BASH_REMATCH[1]}";
rio=1
else
# it's a geneva style xva
subdir="xvda"
rio=0
fi
cp "$xml_file" "$XVA_TARBALL_STAGING"/ova.xml
sed -i -e "s/@VDI_SIZE@/$VDI_SIZE/" "$XVA_TARBALL_STAGING"/ova.xml
mkdir "$XVA_TARBALL_STAGING/$subdir"
splitvdi "$FS_TMPFILE" "$XVA_TARBALL_STAGING/$subdir" "$rio"
TARFILE_MEMBERS=$(cd "$XVA_TARBALL_STAGING" && echo ova.xml $subdir/*)
tar -C "$XVA_TARBALL_STAGING" --format=v7 -c $TARFILE_MEMBERS -f "$output_file.tmp"
mv "$output_file.tmp" "$output_file"
}
make_ovf () {
local output_dir="$1"
local xml_file="$2"
local output_base=$(basename "$output_dir")
local disk="$output_dir/${output_base}.vmdk"
local manifest="$output_dir/${output_base}.mf"
local ovf="$output_dir/${output_base}.ovf"
mkdir -p "$output_dir"
rm -f "$disk"
$VBOX_IMG convert --srcfilename="$FS_TMPFILE" --dstfilename="$disk" \
--srcformat RAW --dstformat VMDK --variant Stream
chmod 0644 "$disk"
local n_bytes=$(stat --printf=%s "$disk")
cp "$xml_file" "$ovf"
sed -i -e "s/@MKXVA_DISK_FULLSIZE@/$VDI_SIZE/" "$ovf"
sed -i -e "s/@MKXVA_DISK_SIZE@/$n_bytes/" "$ovf"
sed -i -e "s/@MKXVA_DISK_MIB_SIZE@/$FS_SIZE_MIB/" "$ovf"
sed -i -e "s/@MKXVA_DISK_FILENAME@/${output_base}.vmdk/" "$ovf"
for to_sign in "$ovf" "$disk"
do
local sha1_sum=$(sha1sum "$to_sign" | cut -d' ' -f1)
echo "SHA1($(basename "$to_sign"))= $sha1_sum" >> $manifest
done
}
output_files="$OPT_OUTPUT_FILES"
xml_files="$OPT_XML_FILES"
# Iterate through the type list creating the relevant VMs
for create_type in $OPT_TYPES
do
# Shift one parameter from the front of the lists
create_output_file="${output_files%% *}"
output_files="${output_files#* }"
create_xml_file="${xml_files%% *}"
xml_files="${xml_files#* }"
echo "Creating $create_type appliance $create_output_file using metadata file $create_xml_file"
case "$create_type" in
xva)
make_xva "$create_output_file" "$create_xml_file"
;;
ovf)
make_ovf "$create_output_file" "$create_xml_file"
;;
*)
echo "Unknown VM type '$create_type'"
exit 1
;;
esac
done
# cleanup
if [ -z "${DO_NOT_CLEANUP:-}" ] ; then
rm -rf "$XVA_TARBALL_STAGING"
rm -f "$FS_TMPFILE"
fi

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#!/bin/bash
#
# Copyright (c) 2011 Citrix Systems, Inc.
# Copyright 2011 OpenStack LLC.
# Copyright (C) 2011 Nicira, Inc
# All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
#
remove_data=
if [ "$1" = "--remove-data" ]
then
remove_data=1
fi
set -eu
xe_min()
{
local cmd="$1"
shift
/opt/xensource/bin/xe "$cmd" --minimal "$@"
}
destroy_vdi()
{
local vbd_uuid="$1"
local type=$(xe_min vbd-list uuid=$vbd_uuid params=type)
local dev=$(xe_min vbd-list uuid=$vbd_uuid params=userdevice)
local vdi_uuid=$(xe_min vbd-list uuid=$vbd_uuid params=vdi-uuid)
if [ "$type" = 'Disk' ] && [ "$dev" != 'xvda' ] && [ "$dev" != '0' ]
then
echo -n "Destroying data disk... "
xe vdi-destroy uuid=$vdi_uuid
echo "done."
fi
}
uninstall()
{
local vm_uuid="$1"
local power_state=$(xe_min vm-list uuid=$vm_uuid params=power-state)
if [ "$power_state" != "halted" ]
then
echo -n "Shutting down VM... "
xe vm-shutdown vm=$vm_uuid force=true
echo "done."
fi
if [ "$remove_data" = "1" ]
then
for v in $(xe_min vbd-list vm-uuid=$vm_uuid | sed -e 's/,/ /g')
do
destroy_vdi "$v"
done
fi
echo -n "Deleting VM... "
xe vm-uninstall vm=$vm_uuid force=true >/dev/null
echo "done."
}
uninstall_template()
{
local vm_uuid="$1"
if [ "$remove_data" = "1" ]
then
for v in $(xe_min vbd-list vm-uuid=$vm_uuid | sed -e 's/,/ /g')
do
destroy_vdi "$v"
done
fi
echo -n "Deleting template... "
xe template-uninstall template-uuid=$vm_uuid force=true >/dev/null
echo "done."
}
for u in $(xe_min vm-list other-config:os-vpx=true | sed -e 's/,/ /g')
do
uninstall "$u"
done
for u in $(xe_min template-list other-config:os-vpx=true | sed -e 's/,/ /g')
do
uninstall_template "$u"
done

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127.0.0.1 localhost
127.0.0.1 %HOSTNAME%
::1 localhost ip6-localhost ip6-loopback
fe00::0 ip6-localnet
ff00::0 ip6-mcastprefix
ff02::1 ip6-allnodes
ff02::2 ip6-allrouters

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auto lo
iface lo inet loopback
auto eth0
iface eth0 inet dhcp
auto eth1
iface eth1 inet static
netmask @ETH1_NETMASK@
post-up ethtool -K eth1 tx off
post-up ifconfig eth1 up
auto eth2
iface eth2 inet static
address @ETH2_IP@
netmask @ETH2_NETMASK@
auto eth3
iface eth3 inet static
address @ETH3_IP@
netmask @ETH3_NETMASK@

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default 0
title default
root (hd0,0)
kernel /boot/vmlinuz-@KERNEL_VERSION@ ro root=LABEL=vpxroot console=xvc0
initrd /boot/initrd.img-@KERNEL_VERSION@

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<?xml version="1.0" ?>
<appliance version="0.1">
<vm name="vm">
<label>
@PRODUCT_BRAND@ @PRODUCT_VERSION@-@BUILD_NUMBER@
</label>
<shortdesc></shortdesc>
<config mem_set="671088640" vcpus="1"/>
<hacks is_hvm="false"/>
<vbd device="xvda" function="root" mode="w" vdi="vdi_xvda"/>
</vm>
<vdi name="vdi_xvda" size="@VDI_SIZE@" source="file://xvda" type="dir-gzipped-chunks" variety="system"/>
</appliance>