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# stackrc
#
# Find the other rc files
RC_DIR=$(cd $(dirname "$BASH_SOURCE") && pwd)

# Destination path for installation
DEST=/opt/stack

# Destination for working data
DATA_DIR=${DEST}/data

# Determine stack user
if [[ $EUID -eq 0 ]]; then
    STACK_USER=stack
else
    STACK_USER=$(whoami)
fi

# 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 ``localrc``.
# For example, to enable Swift add this to ``localrc``:
#  enable_service swift
# In order to enable Quantum (a single node setup) add the following
# settings in `` 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
#  enable_service quantum
#  # Optional, to enable tempest configuration as part of devstack
#  enable_service tempest
ENABLED_SERVICES=g-api,g-reg,key,n-api,n-crt,n-obj,n-cpu,n-net,n-cond,cinder,c-sch,c-api,c-vol,n-sch,n-novnc,n-xvnc,n-cauth,horizon,rabbit,tempest,mysql

# Set the default Nova APIs to enable
NOVA_ENABLED_APIS=ec2,osapi_compute,metadata

# 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
    source $RC_DIR/localrc
fi


# Repositories
# ------------

# Base GIT Repo URL
# Another option is http://review.openstack.org/p
GIT_BASE=${GIT_BASE:-https://github.com}

# metering service
CEILOMETER_REPO=${CEILOMETER_REPO:-${GIT_BASE}/openstack/ceilometer.git}
CEILOMETER_BRANCH=${CEILOMETER_BRANCH:-stable/grizzly}

# ceilometer client library
CEILOMETERCLIENT_REPO=${CEILOMETERCLIENT_REPO:-${GIT_BASE}/openstack/python-ceilometerclient.git}
CEILOMETERCLIENT_BRANCH=${CEILOMETERCLIENT_BRANCH:-master}

# volume service
CINDER_REPO=${CINDER_REPO:-${GIT_BASE}/openstack/cinder.git}
CINDER_BRANCH=${CINDER_BRANCH:-stable/grizzly}

# volume client
CINDERCLIENT_REPO=${CINDERCLIENT_REPO:-${GIT_BASE}/openstack/python-cinderclient.git}
CINDERCLIENT_BRANCH=${CINDERCLIENT_BRANCH:-master}

# compute service
NOVA_REPO=${NOVA_REPO:-${GIT_BASE}/openstack/nova.git}
NOVA_BRANCH=${NOVA_BRANCH:-stable/grizzly}

# storage service
SWIFT_REPO=${SWIFT_REPO:-${GIT_BASE}/openstack/swift.git}
SWIFT_BRANCH=${SWIFT_BRANCH:-stable/grizzly}
SWIFT3_REPO=${SWIFT3_REPO:-${GIT_BASE}/fujita/swift3.git}
SWIFT3_BRANCH=${SWIFT3_BRANCH:-master}

# python swift client library
SWIFTCLIENT_REPO=${SWIFTCLIENT_REPO:-${GIT_BASE}/openstack/python-swiftclient.git}
SWIFTCLIENT_BRANCH=${SWIFTCLIENT_BRANCH:-master}

# image catalog service
GLANCE_REPO=${GLANCE_REPO:-${GIT_BASE}/openstack/glance.git}
GLANCE_BRANCH=${GLANCE_BRANCH:-stable/grizzly}

# python glance client library
GLANCECLIENT_REPO=${GLANCECLIENT_REPO:-${GIT_BASE}/openstack/python-glanceclient.git}
GLANCECLIENT_BRANCH=${GLANCECLIENT_BRANCH:-master}

# unified auth system (manages accounts/tokens)
KEYSTONE_REPO=${KEYSTONE_REPO:-${GIT_BASE}/openstack/keystone.git}
KEYSTONE_BRANCH=${KEYSTONE_BRANCH:-stable/grizzly}

# a websockets/html5 or flash powered VNC console for vm instances
NOVNC_REPO=${NOVNC_REPO:-${GIT_BASE}/kanaka/noVNC.git}
NOVNC_BRANCH=${NOVNC_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}

# django powered web control panel for openstack
HORIZON_REPO=${HORIZON_REPO:-${GIT_BASE}/openstack/horizon.git}
HORIZON_BRANCH=${HORIZON_BRANCH:-stable/grizzly}

# python client library to nova that horizon (and others) use
NOVACLIENT_REPO=${NOVACLIENT_REPO:-${GIT_BASE}/openstack/python-novaclient.git}
NOVACLIENT_BRANCH=${NOVACLIENT_BRANCH:-master}

# consolidated openstack python client
OPENSTACKCLIENT_REPO=${OPENSTACKCLIENT_REPO:-${GIT_BASE}/openstack/python-openstackclient.git}
OPENSTACKCLIENT_BRANCH=${OPENSTACKCLIENT_BRANCH:-master}

# python keystone client library to nova that horizon uses
KEYSTONECLIENT_REPO=${KEYSTONECLIENT_REPO:-${GIT_BASE}/openstack/python-keystoneclient.git}
KEYSTONECLIENT_BRANCH=${KEYSTONECLIENT_BRANCH:-master}

# quantum service
QUANTUM_REPO=${QUANTUM_REPO:-${GIT_BASE}/openstack/neutron.git}
QUANTUM_BRANCH=${QUANTUM_BRANCH:-stable/grizzly}

# quantum client
QUANTUMCLIENT_REPO=${QUANTUMCLIENT_REPO:-${GIT_BASE}/openstack/python-neutronclient.git}
QUANTUMCLIENT_BRANCH=${QUANTUMCLIENT_BRANCH:-master}

# Tempest test suite
TEMPEST_REPO=${TEMPEST_REPO:-${GIT_BASE}/openstack/tempest.git}
TEMPEST_BRANCH=${TEMPEST_BRANCH:-master}

# heat service
HEAT_REPO=${HEAT_REPO:-${GIT_BASE}/openstack/heat.git}
HEAT_BRANCH=${HEAT_BRANCH:-stable/grizzly}

# python heat client library
HEATCLIENT_REPO=${HEATCLIENT_REPO:-${GIT_BASE}/openstack/python-heatclient.git}
HEATCLIENT_BRANCH=${HEATCLIENT_BRANCH:-master}

# ryu service
RYU_REPO=${RYU_REPO:-${GIT_BASE}/osrg/ryu.git}
RYU_BRANCH=${RYU_BRANCH:-master}

# diskimage-builder
BM_IMAGE_BUILD_REPO=${BM_IMAGE_BUILD_REPO:-${GIT_BASE}/stackforge/diskimage-builder.git}
BM_IMAGE_BUILD_BRANCH=${BM_IMAGE_BUILD_BRANCH:-master}

# bm_poseur
# Used to simulate a hardware environment for baremetal
# Only used if BM_USE_FAKE_ENV is set
BM_POSEUR_REPO=${BM_POSEUR_REPO:-${GIT_BASE}/tripleo/bm_poseur.git}
BM_POSEUR_BRANCH=${BM_POSEUR_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** or **OpenVZ** based system.
VIRT_DRIVER=${VIRT_DRIVER:-libvirt}
LIBVIRT_TYPE=${LIBVIRT_TYPE:-kvm}

# Specify a comma-separated list of UEC 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/oneiric/release/ubuntu-11.10-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/oneiric/release/ubuntu-11.10-server-cloudimg-armel-disk1.img
#      http://download.cirros-cloud.net/0.3.1/cirros-0.3.1-x86_64-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/0.3.1/cirros-0.3.1-x86_64-disk.img" # cirros full disk image

# Set default image based on ``VIRT_DRIVER`` and ``LIBVIRT_TYPE``, either of
# which may be set in ``localrc``.  Also allow ``DEFAULT_IMAGE_NAME`` and
# ``IMAGE_URLS`` to be set directly in ``localrc``.
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=${DEFAULT_IMAGE_NAME:-cirros-0.3.1-x86_64-rootfs}
                IMAGE_URLS=${IMAGE_URLS:-"http://download.cirros-cloud.net/0.3.1/cirros-0.3.1-x86_64-rootfs.img.gz"};;
            *) # otherwise, use the uec style image (with kernel, ramdisk, disk)
                DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-0.3.1-x86_64-uec}
                IMAGE_URLS=${IMAGE_URLS:-"http://download.cirros-cloud.net/0.3.1/cirros-0.3.1-x86_64-uec.tar.gz"};;
        esac
        ;;
    *) # otherwise, use the uec style image (with kernel, ramdisk, disk)
        DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-0.3.1-x86_64-uec}
        IMAGE_URLS=${IMAGE_URLS:-"http://download.cirros-cloud.net/0.3.1/cirros-0.3.1-x86_64-uec.tar.gz"};;
esac

# 5Gb default volume backing file size
VOLUME_BACKING_FILE_SIZE=${VOLUME_BACKING_FILE_SIZE:-5130M}

# Name of the LVM volume group to use/create for iscsi volumes
VOLUME_GROUP=${VOLUME_GROUP:-stack-volumes}
VOLUME_NAME_PREFIX=${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}

# Local variables:
# mode: shell-script
# End: