# 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=${REGION_NAME:-RegionOne} # Specify which services to launch. These generally correspond to # screen tabs. To change the default list, use the ``enable_service`` and # ``disable_service`` functions in ``local.conf``. # For example, to enable Swift add this to ``local.conf``: # enable_service s-proxy s-object s-container s-account # In order to enable Neutron (a single node setup) add the following # settings in `` localrc``: # disable_service n-net # enable_service q-svc # enable_service q-agt # enable_service q-dhcp # enable_service q-l3 # enable_service q-meta # # Optional, to enable tempest configuration as part of devstack # enable_service tempest # this allows us to pass ENABLED_SERVICES if [[ -z "$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-novnc,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} # Repositories # ------------ # Base GIT Repo URL # Another option is https://git.openstack.org GIT_BASE=${GIT_BASE:-git://git.openstack.org} ############## # # OpenStack Server Components # ############## # metering service CEILOMETER_REPO=${CEILOMETER_REPO:-${GIT_BASE}/openstack/ceilometer.git} CEILOMETER_BRANCH=${CEILOMETER_BRANCH:-master} # volume 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=${NEUTRON_BRANCH:-master} # compute service NOVA_REPO=${NOVA_REPO:-${GIT_BASE}/openstack/nova.git} NOVA_BRANCH=${NOVA_BRANCH:-master} # 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 TEMPEST_LIB_REPO=${TEMPEST_LIB_REPO:-${GIT_BASE}/openstack/tempest-lib.git} TEMPEST_LIB_BRANCH=${TEMPEST_LIB_BRANCH:-master} ############## # # OpenStack Client Library Componets # ############## # ceilometer client library CEILOMETERCLIENT_REPO=${CEILOMETERCLIENT_REPO:-${GIT_BASE}/openstack/python-ceilometerclient.git} CEILOMETERCLIENT_BRANCH=${CEILOMETERCLIENT_BRANCH:-master} # volume client CINDERCLIENT_REPO=${CINDERCLIENT_REPO:-${GIT_BASE}/openstack/python-cinderclient.git} CINDERCLIENT_BRANCH=${CINDERCLIENT_BRANCH:-master} # python glance client library GLANCECLIENT_REPO=${GLANCECLIENT_REPO:-${GIT_BASE}/openstack/python-glanceclient.git} GLANCECLIENT_BRANCH=${GLANCECLIENT_BRANCH:-master} # python heat client library HEATCLIENT_REPO=${HEATCLIENT_REPO:-${GIT_BASE}/openstack/python-heatclient.git} HEATCLIENT_BRANCH=${HEATCLIENT_BRANCH:-master} # ironic client IRONICCLIENT_REPO=${IRONICCLIENT_REPO:-${GIT_BASE}/openstack/python-ironicclient.git} IRONICCLIENT_BRANCH=${IRONICCLIENT_BRANCH:-master} # python keystone client library to nova that horizon uses KEYSTONECLIENT_REPO=${KEYSTONECLIENT_REPO:-${GIT_BASE}/openstack/python-keystoneclient.git} KEYSTONECLIENT_BRANCH=${KEYSTONECLIENT_BRANCH:-master} # neutron client NEUTRONCLIENT_REPO=${NEUTRONCLIENT_REPO:-${GIT_BASE}/openstack/python-neutronclient.git} NEUTRONCLIENT_BRANCH=${NEUTRONCLIENT_BRANCH:-master} # python client library to nova that horizon (and others) use NOVACLIENT_REPO=${NOVACLIENT_REPO:-${GIT_BASE}/openstack/python-novaclient.git} NOVACLIENT_BRANCH=${NOVACLIENT_BRANCH:-master} # python swift client library SWIFTCLIENT_REPO=${SWIFTCLIENT_REPO:-${GIT_BASE}/openstack/python-swiftclient.git} SWIFTCLIENT_BRANCH=${SWIFTCLIENT_BRANCH:-master} # trove client library test TROVECLIENT_REPO=${TROVECLIENT_REPO:-${GIT_BASE}/openstack/python-troveclient.git} TROVECLIENT_BRANCH=${TROVECLIENT_BRANCH:-master} # consolidated openstack python client OPENSTACKCLIENT_REPO=${OPENSTACKCLIENT_REPO:-${GIT_BASE}/openstack/python-openstackclient.git} OPENSTACKCLIENT_BRANCH=${OPENSTACKCLIENT_BRANCH:-master} ################### # # 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"]=${OSLOCFG_BRANCH:-master} # oslo.db GITREPO["oslo.db"]=${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"]=${TASKFLOW_BRANCH:-master} # pbr drives the setuptools configs GITREPO["pbr"]=${PBR_REPO:-${GIT_BASE}/openstack-dev/pbr.git} GITBRANCH["pbr"]=${PBR_BRANCH:-master} ################## # # Libraries managed by OpenStack programs (non oslo) # ################## # glance store library GLANCE_STORE_REPO=${GLANCE_STORE_REPO:-${GIT_BASE}/openstack/glance_store.git} GLANCE_STORE_BRANCH=${GLANCE_STORE_BRANCH:-master} # heat-cfntools server agent HEAT_CFNTOOLS_REPO=${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=${HEAT_TEMPLATES_BRANCH:-master} # django openstack_auth library HORIZONAUTH_REPO=${HORIZONAUTH_REPO:-${GIT_BASE}/openstack/django_openstack_auth.git} HORIZONAUTH_BRANCH=${HORIZONAUTH_BRANCH:-master} # keystone middleware KEYSTONEMIDDLEWARE_REPO=${KEYSTONEMIDDLEWARE_REPO:-${GIT_BASE}/openstack/keystonemiddleware.git} KEYSTONEMIDDLEWARE_BRANCH=${KEYSTONEMIDDLEWARE_BRANCH:-master} # s3 support for swift SWIFT3_REPO=${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=${CIRROS_ARCH:-"x86_64"} # Set default image based on ``VIRT_DRIVER`` and ``LIBVIRT_TYPE``, either of # which may be set in ``localrc``. Also allow ``DEFAULT_IMAGE_NAME`` and # ``IMAGE_URLS`` to be set directly in ``localrc``. case "$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-${CIRROS_VERSION}-${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|baremetal|ironic) HEAT_CFN_IMAGE_URL=${HEAT_CFN_IMAGE_URL:-"http://dl.fedoraproject.org/pub/alt/openstack/20/x86_64/Fedora-x86_64-20-20140618-sda.qcow2"} IMAGE_URLS+=",$HEAT_CFN_IMAGE_URL" ;; *) ;; esac fi # Trove needs a custom image for it's work if [[ "$ENABLED_SERVICES" =~ 'tr-api' ]]; then case "$VIRT_DRIVER" in libvirt|baremetal|ironic|xenapi) TROVE_GUEST_IMAGE_URL=${TROVE_GUEST_IMAGE_URL:-"http://tarballs.openstack.org/trove/images/ubuntu_mysql.qcow2/ubuntu_mysql.qcow2"} IMAGE_URLS+=",${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="http://dl.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} # Following entries need to be last items in file # Local variables: # mode: shell-script # End: