devstack/stackrc
Sean Dague 537532931d Make changes such that -o nounset runs
This makes a bunch of variable cleanups that will let -o nounset
function, for the time being we hide nounset behind another setting
variable so that it's not on by default.

Because this is bash, and things are only executed on demand, this
probably only works in the config it was run in. Expect cleaning up
all the paths to be something that takes quite a while.

This also includes a new set of unit tests around the trueorfalse
function, because my change in how it worked, didn't. Tests are good
m'kay.

Change-Id: I71a896623ea9e1f042a73dc0678ce85acf0dc87d
2015-01-15 13:06:14 -05:00

710 lines
26 KiB
Bash

#!/bin/bash
#
# stackrc
#
# Find the other rc files
RC_DIR=$(cd $(dirname "${BASH_SOURCE:-$0}") && pwd)
# Source required devstack functions and globals
source $RC_DIR/functions
# Destination path for installation
DEST=/opt/stack
# Destination for working data
DATA_DIR=${DEST}/data
# Destination for status files
SERVICE_DIR=${DEST}/status
# Determine stack user
if [[ $EUID -eq 0 ]]; then
STACK_USER=stack
else
STACK_USER=$(whoami)
fi
# Specify region name Region
REGION_NAME=${REGION_NAME:-RegionOne}
# Specify which services to launch. These generally correspond to
# screen tabs. To change the default list, use the ``enable_service`` and
# ``disable_service`` functions in ``local.conf``.
# For example, to enable Swift add this to ``local.conf``:
# enable_service s-proxy s-object s-container s-account
# In order to enable Neutron (a single node setup) add the following
# settings in ``local.conf``:
# [[local|localrc]]
# disable_service n-net
# enable_service q-svc
# enable_service q-agt
# enable_service q-dhcp
# enable_service q-l3
# enable_service q-meta
# # Optional, to enable tempest configuration as part of devstack
# enable_service tempest
function isset {
local nounset=$(set +o | grep nounset)
set +o nounset
[[ -n "${!1+x}" ]]
result=$?
$nounset
return $result
}
# this allows us to pass ENABLED_SERVICES
if ! isset ENABLED_SERVICES ; then
# core compute (glance / keystone / nova (+ nova-network))
ENABLED_SERVICES=g-api,g-reg,key,n-api,n-crt,n-obj,n-cpu,n-net,n-cond,n-sch,n-xvnc,n-cauth
# cinder
ENABLED_SERVICES+=,c-sch,c-api,c-vol
# heat
ENABLED_SERVICES+=,h-eng,h-api,h-api-cfn,h-api-cw
# dashboard
ENABLED_SERVICES+=,horizon
# additional services
ENABLED_SERVICES+=,rabbit,tempest,mysql
fi
# SQLAlchemy supports multiple database drivers for each database server
# type. For example, deployer may use MySQLdb, MySQLConnector, or oursql
# to access MySQL database.
#
# When defined, the variable controls which database driver is used to
# connect to database server. Otherwise using default driver defined for
# each database type.
#
# You can find the list of currently supported drivers for each database
# type at: http://docs.sqlalchemy.org/en/rel_0_9/core/engines.html
# SQLALCHEMY_DATABASE_DRIVER="mysqldb"
# Global toggle for enabling services under mod_wsgi. If this is set to
# ``True`` all services that use HTTPD + mod_wsgi as the preferred method of
# deployment, will be deployed under Apache. If this is set to ``False`` all
# services will rely on the local toggle variable (e.g. ``KEYSTONE_USE_MOD_WSGI``)
ENABLE_HTTPD_MOD_WSGI_SERVICES=True
# Tell Tempest which services are available. The default is set here as
# Tempest falls late in the configuration sequence. This differs from
# ``ENABLED_SERVICES`` in that the project names are used here rather than
# the service names, i.e.: TEMPEST_SERVICES="key,glance,nova"
TEMPEST_SERVICES=""
# Set the default Nova APIs to enable
NOVA_ENABLED_APIS=ec2,osapi_compute,metadata
# Configure Identity API version: 2.0, 3
IDENTITY_API_VERSION=2.0
# Whether to use 'dev mode' for screen windows. Dev mode works by
# stuffing text into the screen windows so that a developer can use
# ctrl-c, up-arrow, enter to restart the service. Starting services
# this way is slightly unreliable, and a bit slower, so this can
# be disabled for automated testing by setting this value to False.
USE_SCREEN=True
# allow local overrides of env variables, including repo config
if [[ -f $RC_DIR/localrc ]]; then
# Old-style user-supplied config
source $RC_DIR/localrc
elif [[ -f $RC_DIR/.localrc.auto ]]; then
# New-style user-supplied config extracted from local.conf
source $RC_DIR/.localrc.auto
fi
# This can be used to turn database query logging on and off
# (currently only implemented for MySQL backend)
DATABASE_QUERY_LOGGING=$(trueorfalse True DATABASE_QUERY_LOGGING)
# Set a timeout for git operations. If git is still running when the
# timeout expires, the command will be retried up to 3 times. This is
# in the format for timeout(1);
#
# DURATION is a floating point number with an optional suffix: 's'
# for seconds (the default), 'm' for minutes, 'h' for hours or 'd'
# for days.
#
# Zero disables timeouts
GIT_TIMEOUT=${GIT_TIMEOUT:-0}
# Requirements enforcing mode
#
# - strict (default) : ensure all project requirements files match
# what's in global requirements.
#
# - soft : enforce requirements on everything in
# requirements/projects.txt, but do soft updates on all other
# repositories (i.e. sync versions for requirements that are in g-r,
# but pass through any extras)
REQUIREMENTS_MODE=${REQUIREMENTS_MODE:-strict}
# Repositories
# ------------
# Base GIT Repo URL
# Another option is https://git.openstack.org
GIT_BASE=${GIT_BASE:-git://git.openstack.org}
# Which libraries should we install from git instead of using released
# versions on pypi?
#
# By default devstack is now installing libraries from pypi instead of
# from git repositories by default. This works great if you are
# developing server components, but if you want to develop libraries
# and see them live in devstack you need to tell devstack it should
# install them from git.
#
# ex: LIBS_FROM_GIT=python-keystoneclient,oslo.config
#
# Will install those 2 libraries from git, the rest from pypi.
##############
#
# OpenStack Server Components
#
##############
# metering service
CEILOMETER_REPO=${CEILOMETER_REPO:-${GIT_BASE}/openstack/ceilometer.git}
CEILOMETER_BRANCH=${CEILOMETER_BRANCH:-master}
# block storage service
CINDER_REPO=${CINDER_REPO:-${GIT_BASE}/openstack/cinder.git}
CINDER_BRANCH=${CINDER_BRANCH:-master}
# image catalog service
GLANCE_REPO=${GLANCE_REPO:-${GIT_BASE}/openstack/glance.git}
GLANCE_BRANCH=${GLANCE_BRANCH:-master}
# heat service
HEAT_REPO=${HEAT_REPO:-${GIT_BASE}/openstack/heat.git}
HEAT_BRANCH=${HEAT_BRANCH:-master}
# django powered web control panel for openstack
HORIZON_REPO=${HORIZON_REPO:-${GIT_BASE}/openstack/horizon.git}
HORIZON_BRANCH=${HORIZON_BRANCH:-master}
# baremetal provisioning service
IRONIC_REPO=${IRONIC_REPO:-${GIT_BASE}/openstack/ironic.git}
IRONIC_BRANCH=${IRONIC_BRANCH:-master}
# unified auth system (manages accounts/tokens)
KEYSTONE_REPO=${KEYSTONE_REPO:-${GIT_BASE}/openstack/keystone.git}
KEYSTONE_BRANCH=${KEYSTONE_BRANCH:-master}
# neutron service
NEUTRON_REPO=${NEUTRON_REPO:-${GIT_BASE}/openstack/neutron.git}
NEUTRON_BRANCH=${NEUTRON_BRANCH:-master}
# neutron fwaas service
NEUTRON_FWAAS_REPO=${NEUTRON_FWAAS_REPO:-${GIT_BASE}/openstack/neutron-fwaas.git}
NEUTRON_FWAAS_BRANCH=${NEUTRON_FWAAS_BRANCH:-master}
# neutron lbaas service
NEUTRON_LBAAS_REPO=${NEUTRON_LBAAS_REPO:-${GIT_BASE}/openstack/neutron-lbaas.git}
NEUTRON_LBAAS_BRANCH=${NEUTRON_LBAAS_BRANCH:-master}
# neutron vpnaas service
NEUTRON_VPNAAS_REPO=${NEUTRON_VPNAAS_REPO:-${GIT_BASE}/openstack/neutron-vpnaas.git}
NEUTRON_VPNAAS_BRANCH=${NEUTRON_VPNAAS_BRANCH:-master}
# compute service
NOVA_REPO=${NOVA_REPO:-${GIT_BASE}/openstack/nova.git}
NOVA_BRANCH=${NOVA_BRANCH:-master}
# data processing service
SAHARA_REPO=${SAHARA_REPO:-${GIT_BASE}/openstack/sahara.git}
SAHARA_BRANCH=${SAHARA_BRANCH:-master}
# object storage service
SWIFT_REPO=${SWIFT_REPO:-${GIT_BASE}/openstack/swift.git}
SWIFT_BRANCH=${SWIFT_BRANCH:-master}
# trove service
TROVE_REPO=${TROVE_REPO:-${GIT_BASE}/openstack/trove.git}
TROVE_BRANCH=${TROVE_BRANCH:-master}
##############
#
# Testing Components
#
##############
# consolidated openstack requirements
REQUIREMENTS_REPO=${REQUIREMENTS_REPO:-${GIT_BASE}/openstack/requirements.git}
REQUIREMENTS_BRANCH=${REQUIREMENTS_BRANCH:-master}
# Tempest test suite
TEMPEST_REPO=${TEMPEST_REPO:-${GIT_BASE}/openstack/tempest.git}
TEMPEST_BRANCH=${TEMPEST_BRANCH:-master}
# TODO(sdague): this should end up as a library component like below
GITREPO["tempest-lib"]=${TEMPEST_LIB_REPO:-${GIT_BASE}/openstack/tempest-lib.git}
GITBRANCH["tempest-lib"]=${TEMPEST_LIB_BRANCH:-master}
##############
#
# OpenStack Client Library Componets
#
##############
# ceilometer client library
GITREPO["python-ceilometerclient"]=${CEILOMETERCLIENT_REPO:-${GIT_BASE}/openstack/python-ceilometerclient.git}
GITBRANCH["python-ceilometerclient"]=${CEILOMETERCLIENT_BRANCH:-master}
# volume client
GITREPO["python-cinderclient"]=${CINDERCLIENT_REPO:-${GIT_BASE}/openstack/python-cinderclient.git}
GITBRANCH["python-cinderclient"]=${CINDERCLIENT_BRANCH:-master}
# python glance client library
GITREPO["python-glanceclient"]=${GLANCECLIENT_REPO:-${GIT_BASE}/openstack/python-glanceclient.git}
GITBRANCH["python-glanceclient"]=${GLANCECLIENT_BRANCH:-master}
# python heat client library
GITREPO["python-heatclient"]=${HEATCLIENT_REPO:-${GIT_BASE}/openstack/python-heatclient.git}
GITBRANCH["python-heatclient"]=${HEATCLIENT_BRANCH:-master}
# ironic client
GITREPO["python-ironicclient"]=${IRONICCLIENT_REPO:-${GIT_BASE}/openstack/python-ironicclient.git}
GITBRANCH["python-ironicclient"]=${IRONICCLIENT_BRANCH:-master}
# python keystone client library to nova that horizon uses
GITREPO["python-keystoneclient"]=${KEYSTONECLIENT_REPO:-${GIT_BASE}/openstack/python-keystoneclient.git}
GITBRANCH["python-keystoneclient"]=${KEYSTONECLIENT_BRANCH:-master}
# neutron client
GITREPO["python-neutronclient"]=${NEUTRONCLIENT_REPO:-${GIT_BASE}/openstack/python-neutronclient.git}
GITBRANCH["python-neutronclient"]=${NEUTRONCLIENT_BRANCH:-master}
# python client library to nova that horizon (and others) use
GITREPO["python-novaclient"]=${NOVACLIENT_REPO:-${GIT_BASE}/openstack/python-novaclient.git}
GITBRANCH["python-novaclient"]=${NOVACLIENT_BRANCH:-master}
# python saharaclient
GITREPO["python-saharaclient"]=${SAHARACLIENT_REPO:-${GIT_BASE}/openstack/python-saharaclient.git}
GITBRANCH["python-saharaclient"]=${SAHARACLIENT_BRANCH:-master}
# python swift client library
GITREPO["python-swiftclient"]=${SWIFTCLIENT_REPO:-${GIT_BASE}/openstack/python-swiftclient.git}
GITBRANCH["python-swiftclient"]=${SWIFTCLIENT_BRANCH:-master}
# trove client library test
GITREPO["python-troveclient"]=${TROVECLIENT_REPO:-${GIT_BASE}/openstack/python-troveclient.git}
GITBRANCH["python-troveclient"]=${TROVECLIENT_BRANCH:-master}
# consolidated openstack python client
GITREPO["python-openstackclient"]=${OPENSTACKCLIENT_REPO:-${GIT_BASE}/openstack/python-openstackclient.git}
GITBRANCH["python-openstackclient"]=${OPENSTACKCLIENT_BRANCH:-master}
# this doesn't exist in a lib file, so set it here
GITDIR["python-openstackclient"]=$DEST/python-openstackclient
###################
#
# Oslo Libraries
#
###################
# cliff command line framework
GITREPO["cliff"]=${CLIFF_REPO:-${GIT_BASE}/openstack/cliff.git}
GITBRANCH["cliff"]=${CLIFF_BRANCH:-master}
# oslo.concurrency
GITREPO["oslo.concurrency"]=${OSLOCON_REPO:-${GIT_BASE}/openstack/oslo.concurrency.git}
GITBRANCH["oslo.concurrency"]=${OSLOCON_BRANCH:-master}
# oslo.config
GITREPO["oslo.config"]=${OSLOCFG_REPO:-${GIT_BASE}/openstack/oslo.config.git}
GITBRANCH["oslo.config"]=${OSLOCFG_BRANCH:-master}
# oslo.context
GITREPO["oslo.context"]=${OSLOCTX_REPO:-${GIT_BASE}/openstack/oslo.context.git}
GITBRANCH["oslo.context"]=${OSLOCTX_BRANCH:-master}
# oslo.db
GITREPO["oslo.db"]=${OSLODB_REPO:-${GIT_BASE}/openstack/oslo.db.git}
GITBRANCH["oslo.db"]=${OSLODB_BRANCH:-master}
# oslo.i18n
GITREPO["oslo.i18n"]=${OSLOI18N_REPO:-${GIT_BASE}/openstack/oslo.i18n.git}
GITBRANCH["oslo.i18n"]=${OSLOI18N_BRANCH:-master}
# oslo.log
GITREPO["oslo.log"]=${OSLOLOG_REPO:-${GIT_BASE}/openstack/oslo.log.git}
GITBRANCH["oslo.log"]=${OSLOLOG_BRANCH:-master}
# oslo.messaging
GITREPO["oslo.messaging"]=${OSLOMSG_REPO:-${GIT_BASE}/openstack/oslo.messaging.git}
GITBRANCH["oslo.messaging"]=${OSLOMSG_BRANCH:-master}
# oslo.middleware
GITREPO["oslo.middleware"]=${OSLOMID_REPO:-${GIT_BASE}/openstack/oslo.middleware.git}
GITBRANCH["oslo.middleware"]=${OSLOMID_BRANCH:-master}
# oslo.rootwrap
GITREPO["oslo.rootwrap"]=${OSLORWRAP_REPO:-${GIT_BASE}/openstack/oslo.rootwrap.git}
GITBRANCH["oslo.rootwrap"]=${OSLORWRAP_BRANCH:-master}
# oslo.serialization
GITREPO["oslo.serialization"]=${OSLOSERIALIZATION_REPO:-${GIT_BASE}/openstack/oslo.serialization.git}
GITBRANCH["oslo.serialization"]=${OSLOSERIALIZATION_BRANCH:-master}
# oslo.utils
GITREPO["oslo.utils"]=${OSLOUTILS_REPO:-${GIT_BASE}/openstack/oslo.utils.git}
GITBRANCH["oslo.utils"]=${OSLOUTILS_BRANCH:-master}
# oslo.vmware
GITREPO["oslo.vmware"]=${OSLOVMWARE_REPO:-${GIT_BASE}/openstack/oslo.vmware.git}
GITBRANCH["oslo.vmware"]=${OSLOVMWARE_BRANCH:-master}
# pycadf auditing library
GITREPO["pycadf"]=${PYCADF_REPO:-${GIT_BASE}/openstack/pycadf.git}
GITBRANCH["pycadf"]=${PYCADF_BRANCH:-master}
# stevedore plugin manager
GITREPO["stevedore"]=${STEVEDORE_REPO:-${GIT_BASE}/openstack/stevedore.git}
GITBRANCH["stevedore"]=${STEVEDORE_BRANCH:-master}
# taskflow plugin manager
GITREPO["taskflow"]=${TASKFLOW_REPO:-${GIT_BASE}/openstack/taskflow.git}
GITBRANCH["taskflow"]=${TASKFLOW_BRANCH:-master}
# tooz plugin manager
GITREPO["tooz"]=${TOOZ_REPO:-${GIT_BASE}/openstack/tooz.git}
GITBRANCH["tooz"]=${TOOZ_BRANCH:-master}
# pbr drives the setuptools configs
GITREPO["pbr"]=${PBR_REPO:-${GIT_BASE}/openstack-dev/pbr.git}
GITBRANCH["pbr"]=${PBR_BRANCH:-master}
##################
#
# Libraries managed by OpenStack programs (non oslo)
#
##################
# glance store library
GITREPO["glance_store"]=${GLANCE_STORE_REPO:-${GIT_BASE}/openstack/glance_store.git}
GITBRANCH["glance_store"]=${GLANCE_STORE_BRANCH:-master}
# heat-cfntools server agent
HEAT_CFNTOOLS_REPO=${HEAT_CFNTOOLS_REPO:-${GIT_BASE}/openstack/heat-cfntools.git}
HEAT_CFNTOOLS_BRANCH=${HEAT_CFNTOOLS_BRANCH:-master}
# heat example templates and elements
HEAT_TEMPLATES_REPO=${HEAT_TEMPLATES_REPO:-${GIT_BASE}/openstack/heat-templates.git}
HEAT_TEMPLATES_BRANCH=${HEAT_TEMPLATES_BRANCH:-master}
# django openstack_auth library
GITREPO["django_openstack_auth"]=${HORIZONAUTH_REPO:-${GIT_BASE}/openstack/django_openstack_auth.git}
GITBRANCH["django_openstack_auth"]=${HORIZONAUTH_BRANCH:-master}
# keystone middleware
GITREPO["keystonemiddleware"]=${KEYSTONEMIDDLEWARE_REPO:-${GIT_BASE}/openstack/keystonemiddleware.git}
GITBRANCH["keystonemiddleware"]=${KEYSTONEMIDDLEWARE_BRANCH:-master}
# s3 support for swift
SWIFT3_REPO=${SWIFT3_REPO:-${GIT_BASE}/stackforge/swift3.git}
SWIFT3_BRANCH=${SWIFT3_BRANCH:-master}
##################
#
# TripleO Components
#
##################
# diskimage-builder
DIB_REPO=${DIB_REPO:-${GIT_BASE}/openstack/diskimage-builder.git}
DIB_BRANCH=${DIB_BRANCH:-master}
# os-apply-config configuration template tool
OAC_REPO=${OAC_REPO:-${GIT_BASE}/openstack/os-apply-config.git}
OAC_BRANCH=${OAC_BRANCH:-master}
# os-collect-config configuration agent
OCC_REPO=${OCC_REPO:-${GIT_BASE}/openstack/os-collect-config.git}
OCC_BRANCH=${OCC_BRANCH:-master}
# os-refresh-config configuration run-parts tool
ORC_REPO=${ORC_REPO:-${GIT_BASE}/openstack/os-refresh-config.git}
ORC_BRANCH=${ORC_BRANCH:-master}
# Tripleo elements for diskimage-builder images
TIE_REPO=${TIE_REPO:-${GIT_BASE}/openstack/tripleo-image-elements.git}
TIE_BRANCH=${TIE_BRANCH:-master}
#################
#
# Additional Libraries
#
#################
# stackforge libraries that are used by OpenStack core services
# wsme
WSME_REPO=${WSME_REPO:-${GIT_BASE}/stackforge/wsme.git}
WSME_BRANCH=${WSME_BRANCH:-master}
# pecan
PECAN_REPO=${PECAN_REPO:-${GIT_BASE}/stackforge/pecan.git}
PECAN_BRANCH=${PECAN_BRANCH:-master}
# sqlalchemy-migrate
SQLALCHEMY_MIGRATE_REPO=${SQLALCHEMY_MIGRATE_REPO:-${GIT_BASE}/stackforge/sqlalchemy-migrate.git}
SQLALCHEMY_MIGRATE_BRANCH=${SQLALCHEMY_MIGRATE_BRANCH:-master}
#################
#
# 3rd Party Components (non pip installable)
#
# NOTE(sdague): these should be converted to release version installs or removed
#
#################
# ironic python agent
IRONIC_PYTHON_AGENT_REPO=${IRONIC_PYTHON_AGENT_REPO:-${GIT_BASE}/openstack/ironic-python-agent.git}
IRONIC_PYTHON_AGENT_BRANCH=${IRONIC_PYTHON_AGENT_BRANCH:-master}
# a websockets/html5 or flash powered VNC console for vm instances
NOVNC_REPO=${NOVNC_REPO:-https://github.com/kanaka/noVNC.git}
NOVNC_BRANCH=${NOVNC_BRANCH:-master}
# ryu service
RYU_REPO=${RYU_REPO:-https://github.com/osrg/ryu.git}
RYU_BRANCH=${RYU_BRANCH:-master}
# a websockets/html5 or flash powered SPICE console for vm instances
SPICE_REPO=${SPICE_REPO:-http://anongit.freedesktop.org/git/spice/spice-html5.git}
SPICE_BRANCH=${SPICE_BRANCH:-master}
# Nova hypervisor configuration. We default to libvirt with **kvm** but will
# drop back to **qemu** if we are unable to load the kvm module. ``stack.sh`` can
# also install an **LXC**, **OpenVZ** or **XenAPI** based system. If xenserver-core
# is installed, the default will be XenAPI
DEFAULT_VIRT_DRIVER=libvirt
is_package_installed xenserver-core && DEFAULT_VIRT_DRIVER=xenserver
VIRT_DRIVER=${VIRT_DRIVER:-$DEFAULT_VIRT_DRIVER}
case "$VIRT_DRIVER" in
ironic|libvirt)
LIBVIRT_TYPE=${LIBVIRT_TYPE:-kvm}
if [[ "$os_VENDOR" =~ (Debian) ]]; then
LIBVIRT_GROUP=libvirt
else
LIBVIRT_GROUP=libvirtd
fi
;;
fake)
NUMBER_FAKE_NOVA_COMPUTE=${NUMBER_FAKE_NOVA_COMPUTE:-1}
;;
xenserver)
# Xen config common to nova and neutron
XENAPI_USER=${XENAPI_USER:-"root"}
# This user will be used for dom0 - domU communication
# should be able to log in to dom0 without a password
# will be used to install the plugins
DOMZERO_USER=${DOMZERO_USER:-"domzero"}
;;
*)
;;
esac
# Images
# ------
# Specify a comma-separated list of images to download and install into glance.
# Supported urls here are:
# * "uec-style" images:
# If the file ends in .tar.gz, uncompress the tarball and and select the first
# .img file inside it as the image. If present, use "*-vmlinuz*" as the kernel
# and "*-initrd*" as the ramdisk
# example: http://cloud-images.ubuntu.com/releases/precise/release/ubuntu-12.04-server-cloudimg-amd64.tar.gz
# * disk image (*.img,*.img.gz)
# if file ends in .img, then it will be uploaded and registered as a to
# glance as a disk image. If it ends in .gz, it is uncompressed first.
# example:
# http://cloud-images.ubuntu.com/releases/precise/release/ubuntu-12.04-server-cloudimg-armel-disk1.img
# http://download.cirros-cloud.net/${CIRROS_VERSION}/cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-rootfs.img.gz
# * OpenVZ image:
# OpenVZ uses its own format of image, and does not support UEC style images
#IMAGE_URLS="http://smoser.brickies.net/ubuntu/ttylinux-uec/ttylinux-uec-amd64-11.2_2.6.35-15_1.tar.gz" # old ttylinux-uec image
#IMAGE_URLS="http://download.cirros-cloud.net/${CIRROS_VERSION}/cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-disk.img" # cirros full disk image
CIRROS_VERSION=${CIRROS_VERSION:-"0.3.2"}
CIRROS_ARCH=${CIRROS_ARCH:-"x86_64"}
# Set default image based on ``VIRT_DRIVER`` and ``LIBVIRT_TYPE``, either of
# which may be set in ``local.conf``. Also allow ``DEFAULT_IMAGE_NAME`` and
# ``IMAGE_URLS`` to be set in the `localrc` section of ``local.conf``.
case "$VIRT_DRIVER" in
openvz)
DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-ubuntu-12.04-x86_64}
IMAGE_URLS=${IMAGE_URLS:-"http://download.openvz.org/template/precreated/ubuntu-12.04-x86_64.tar.gz"};;
libvirt)
case "$LIBVIRT_TYPE" in
lxc) # the cirros root disk in the uec tarball is empty, so it will not work for lxc
DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-rootfs}
IMAGE_URLS=${IMAGE_URLS:-"http://download.cirros-cloud.net/${CIRROS_VERSION}/cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-rootfs.img.gz"};;
*) # otherwise, use the uec style image (with kernel, ramdisk, disk)
DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-uec}
IMAGE_URLS=${IMAGE_URLS:-"http://download.cirros-cloud.net/${CIRROS_VERSION}/cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-uec.tar.gz"};;
esac
;;
vsphere)
DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-0.3.2-i386-disk.vmdk}
IMAGE_URLS=${IMAGE_URLS:-"http://partnerweb.vmware.com/programs/vmdkimage/cirros-0.3.2-i386-disk.vmdk"};;
xenserver)
DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-0.3.0-x86_64-disk}
IMAGE_URLS=${IMAGE_URLS:-"https://github.com/downloads/citrix-openstack/warehouse/cirros-0.3.0-x86_64-disk.vhd.tgz"}
IMAGE_URLS+=",http://download.cirros-cloud.net/${CIRROS_VERSION}/cirros-${CIRROS_VERSION}-x86_64-uec.tar.gz";;
ironic)
# Ironic can do both partition and full disk images, depending on the driver
if [[ "$IRONIC_DEPLOY_DRIVER" == "agent_ssh" ]]; then
DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-${CIRROS_VERSION}-x86_64-disk}
else
DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-${CIRROS_VERSION}-x86_64-uec}
fi
IMAGE_URLS=${IMAGE_URLS:-"http://download.cirros-cloud.net/${CIRROS_VERSION}/cirros-${CIRROS_VERSION}-x86_64-uec.tar.gz"}
IMAGE_URLS+=",http://download.cirros-cloud.net/${CIRROS_VERSION}/cirros-${CIRROS_VERSION}-x86_64-disk.img";;
*) # Default to Cirros with kernel, ramdisk and disk image
DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-uec}
IMAGE_URLS=${IMAGE_URLS:-"http://download.cirros-cloud.net/${CIRROS_VERSION}/cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-uec.tar.gz"};;
esac
# Use 64bit fedora image if heat is enabled
if [[ "$ENABLED_SERVICES" =~ 'h-api' ]]; then
case "$VIRT_DRIVER" in
libvirt|ironic)
HEAT_CFN_IMAGE_URL=${HEAT_CFN_IMAGE_URL:-"https://download.fedoraproject.org/pub/alt/openstack/20/x86_64/Fedora-x86_64-20-20140618-sda.qcow2"}
IMAGE_URLS+=",$HEAT_CFN_IMAGE_URL"
;;
*)
;;
esac
fi
# Trove needs a custom image for its work
if [[ "$ENABLED_SERVICES" =~ 'tr-api' ]]; then
case "$VIRT_DRIVER" in
libvirt|ironic|xenapi)
TROVE_GUEST_IMAGE_URL=${TROVE_GUEST_IMAGE_URL:-"http://tarballs.openstack.org/trove/images/ubuntu/mysql.qcow2"}
IMAGE_URLS+=",${TROVE_GUEST_IMAGE_URL}"
;;
*)
;;
esac
fi
# Staging Area for New Images, have them here for at least 24hrs for nodepool
# to cache them otherwise the failure rates in the gate are too high
PRECACHE_IMAGES=$(trueorfalse False PRECACHE_IMAGES)
if [[ "$PRECACHE_IMAGES" == "True" ]]; then
# staging in update for nodepool
IMAGE_URL="https://download.fedoraproject.org/pub/alt/openstack/20/x86_64/Fedora-x86_64-20-20140618-sda.qcow2"
if ! [[ "$IMAGE_URLS" =~ "$IMAGE_URL" ]]; then
IMAGE_URLS+=",$IMAGE_URL"
fi
fi
# 10Gb default volume backing file size
VOLUME_BACKING_FILE_SIZE=${VOLUME_BACKING_FILE_SIZE:-10250M}
# Prefixes for volume and instance names
VOLUME_NAME_PREFIX=${VOLUME_NAME_PREFIX:-volume-}
INSTANCE_NAME_PREFIX=${INSTANCE_NAME_PREFIX:-instance-}
# Set default port for nova-objectstore
S3_SERVICE_PORT=${S3_SERVICE_PORT:-3333}
# Common network names
PRIVATE_NETWORK_NAME=${PRIVATE_NETWORK_NAME:-"private"}
PUBLIC_NETWORK_NAME=${PUBLIC_NETWORK_NAME:-"public"}
# Compatibility until it's eradicated from CI
USE_SCREEN=${SCREEN_DEV:-$USE_SCREEN}
# Set default screen name
SCREEN_NAME=${SCREEN_NAME:-stack}
# Do not install packages tagged with 'testonly' by default
INSTALL_TESTONLY_PACKAGES=${INSTALL_TESTONLY_PACKAGES:-False}
# Undo requirements changes by global requirements
UNDO_REQUIREMENTS=${UNDO_REQUIREMENTS:-True}
# Allow the use of an alternate protocol (such as https) for service endpoints
SERVICE_PROTOCOL=${SERVICE_PROTOCOL:-http}
# Sets the maximum number of workers for most services to reduce
# the memory used where there are a large number of CPUs present
# (the default number of workers for many services is the number of CPUs)
# Also sets the minimum number of workers to 2.
API_WORKERS=${API_WORKERS:=$(( ($(nproc)/2)<2 ? 2 : ($(nproc)/2) ))}
# Service startup timeout
SERVICE_TIMEOUT=${SERVICE_TIMEOUT:-60}
# Support alternative yum -- in future Fedora 'dnf' will become the
# only supported installer, but for now 'yum' and 'dnf' are both
# available in parallel with compatible CLIs. Allow manual switching
# till we get to the point we need to handle this automatically
YUM=${YUM:-yum}
# Common Configuration
# --------------------
# Set ``OFFLINE`` to ``True`` to configure ``stack.sh`` to run cleanly without
# Internet access. ``stack.sh`` must have been previously run with Internet
# access to install prerequisites and fetch repositories.
OFFLINE=$(trueorfalse False OFFLINE)
# Set ``ERROR_ON_CLONE`` to ``True`` to configure ``stack.sh`` to exit if
# the destination git repository does not exist during the ``git_clone``
# operation.
ERROR_ON_CLONE=$(trueorfalse False ERROR_ON_CLONE)
# Whether to enable the debug log level in OpenStack services
ENABLE_DEBUG_LOG_LEVEL=$(trueorfalse True ENABLE_DEBUG_LOG_LEVEL)
# Set fixed and floating range here so we can make sure not to use addresses
# from either range when attempting to guess the IP to use for the host.
# Note that setting FIXED_RANGE may be necessary when running DevStack
# in an OpenStack cloud that uses either of these address ranges internally.
FLOATING_RANGE=${FLOATING_RANGE:-172.24.4.0/24}
FIXED_RANGE=${FIXED_RANGE:-10.0.0.0/24}
FIXED_NETWORK_SIZE=${FIXED_NETWORK_SIZE:-256}
HOST_IP_IFACE=${HOST_IP_IFACE:-}
HOST_IP=${HOST_IP:-}
HOST_IP=$(get_default_host_ip $FIXED_RANGE $FLOATING_RANGE "$HOST_IP_IFACE" "$HOST_IP")
if [ "$HOST_IP" == "" ]; then
die $LINENO "Could not determine host ip address. See local.conf for suggestions on setting HOST_IP."
fi
# Allow the use of an alternate hostname (such as localhost/127.0.0.1) for service endpoints.
SERVICE_HOST=${SERVICE_HOST:-$HOST_IP}
# Configure services to use syslog instead of writing to individual log files
SYSLOG=$(trueorfalse False SYSLOG)
SYSLOG_HOST=${SYSLOG_HOST:-$HOST_IP}
SYSLOG_PORT=${SYSLOG_PORT:-516}
# Use color for logging output (only available if syslog is not used)
LOG_COLOR=$(trueorfalse True LOG_COLOR)
# Set global ``GIT_DEPTH=<number>`` to limit the history depth of the git clone
GIT_DEPTH=${GIT_DEPTH:-1}
# Use native SSL for servers in SSL_ENABLED_SERVICES
USE_SSL=$(trueorfalse False USE_SSL)
# Following entries need to be last items in file
# Local variables:
# mode: shell-script
# End: