#!/bin/bash # # stackrc # # ensure we don't re-source this in the same environment [[ -z "$_DEVSTACK_STACKRC" ]] || return 0 declare -r -g _DEVSTACK_STACKRC=1 # Find the other rc files RC_DIR=$(cd $(dirname "${BASH_SOURCE:-$0}") && pwd) # Source required DevStack functions and globals source $RC_DIR/functions # Set the target branch. This is used so that stable branching # does not need to update each repo below. TARGET_BRANCH=master # Cycle trailing projects need to branch later than the others. TRAILING_TARGET_BRANCH=master # And some repos do not create stable branches, so this is used # to make it explicit and avoid accidentally setting to a stable # branch. BRANCHLESS_TARGET_BRANCH=master # Destination path for installation DEST=/opt/stack # Destination for working data DATA_DIR=${DEST}/data # Destination for status files SERVICE_DIR=${DEST}/status # Path for subunit output file SUBUNIT_OUTPUT=${DEST}/devstack.subunit # Determine stack user if [[ $EUID -eq 0 ]]; then STACK_USER=stack else STACK_USER=$(whoami) fi # Specify region name Region REGION_NAME=${REGION_NAME:-RegionOne} # Specify name of region where identity service endpoint is registered. # When deploying multiple DevStack instances in different regions with shared # Keystone, set KEYSTONE_REGION_NAME to the region where Keystone is running # for DevStack instances which do not host Keystone. KEYSTONE_REGION_NAME=${KEYSTONE_REGION_NAME:-$REGION_NAME} # 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 as part of DevStack add the following # settings in ``local.conf``: # [[local|localrc]] # enable_service s-proxy s-object s-container s-account # This allows us to pass ``ENABLED_SERVICES`` if ! isset ENABLED_SERVICES ; then # Keystone - nothing works without keystone ENABLED_SERVICES=key # Nova - services to support libvirt based openstack clouds ENABLED_SERVICES+=,n-api,n-cpu,n-cond,n-sch,n-novnc,n-api-meta # Placement service needed for Nova ENABLED_SERVICES+=,placement-api,placement-client # Glance services needed for Nova ENABLED_SERVICES+=,g-api # Cinder ENABLED_SERVICES+=,c-sch,c-api,c-vol # Neutron ENABLED_SERVICES+=,q-svc,q-dhcp,q-meta,q-agt,q-l3 # Dashboard ENABLED_SERVICES+=,horizon # Additional services ENABLED_SERVICES+=,rabbit,tempest,mysql,etcd3,dstat fi # 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 # Set the default Nova APIs to enable NOVA_ENABLED_APIS=osapi_compute,metadata # 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 $RC_DIR/.localrc.auto fi # CELLSV2_SETUP - how we should configure services with cells v2 # # - superconductor - this is one conductor for the api services, and # one per cell managing the compute services. This is preferred # - singleconductor - this is one conductor for the whole deployment, # this is not recommended, and will be removed in the future. CELLSV2_SETUP=${CELLSV2_SETUP:-"superconductor"} # Set the root URL for Horizon HORIZON_APACHE_ROOT="/dashboard" # Whether to use user specific units for running services or global ones. USER_UNITS=$(trueorfalse False USER_UNITS) if [[ "$USER_UNITS" == "True" ]]; then SYSTEMD_DIR="$HOME/.local/share/systemd/user" SYSTEMCTL="systemctl --user" else SYSTEMD_DIR="/etc/systemd/system" SYSTEMCTL="sudo systemctl" fi # Whether or not to enable Kernel Samepage Merging (KSM) if available. # This allows programs that mark their memory as mergeable to share # memory pages if they are identical. This is particularly useful with # libvirt backends. This reduces memory usage at the cost of CPU overhead # to scan memory. We default to enabling it because we tend to be more # memory constrained than CPU bound. ENABLE_KSM=$(trueorfalse True ENABLE_KSM) # Passwords generated by interactive devstack runs if [[ -r $RC_DIR/.localrc.password ]]; then source $RC_DIR/.localrc.password fi # Control whether Python 3 should be used at all. # TODO(frickler): Drop this when all consumers are fixed export USE_PYTHON3=True # Adding the specific version of Python 3 to this variable will install # the app using that version of the interpreter instead of just 3. _DEFAULT_PYTHON3_VERSION="$(_get_python_version python3)" export PYTHON3_VERSION=${PYTHON3_VERSION:-${_DEFAULT_PYTHON3_VERSION:-3}} # Create a virtualenv with this # Use the built-in venv to avoid more dependencies export VIRTUALENV_CMD="python3 -m venv" # Default for log coloring is based on interactive-or-not. # Baseline assumption is that non-interactive invocations are for CI, # where logs are to be presented as browsable text files; hence color # codes should be omitted. # Simply override LOG_COLOR if your environment is different. if [ -t 1 ]; then _LOG_COLOR_DEFAULT=True else _LOG_COLOR_DEFAULT=False fi # Use color for logging output (only available if syslog is not used) LOG_COLOR=$(trueorfalse $_LOG_COLOR_DEFAULT LOG_COLOR) # Make tracing more educational if [[ "$LOG_COLOR" == "True" ]]; then # tput requires TERM or -T. If neither is present, use vt100, a # no-frills least common denominator supported everywhere. TPUT_T= if ! [ $TERM ]; then TPUT_T='-T vt100' fi export PS4='+\[$(tput '$TPUT_T' setaf 242)\]$(short_source)\[$(tput '$TPUT_T' sgr0)\] ' else export PS4='+ $(short_source): ' fi # Configure Identity API version: 2.0, 3 IDENTITY_API_VERSION=${IDENTITY_API_VERSION:-3} # Set the option ENABLE_IDENTITY_V2 to True. It defines whether the DevStack # deployment will be deploying the Identity v2 pipelines. If this option is set # to ``False``, DevStack will: i) disable Identity v2; ii) configure Tempest to # skip Identity v2 specific tests; and iii) configure Horizon to use Identity # v3. When this option is set to ``False``, the option IDENTITY_API_VERSION # will to be set to ``3`` in order to make DevStack register the Identity # endpoint as v3. This flag is experimental and will be used as basis to # identify the projects which still have issues to operate with Identity v3. ENABLE_IDENTITY_V2=$(trueorfalse False ENABLE_IDENTITY_V2) if [ "$ENABLE_IDENTITY_V2" == "False" ]; then IDENTITY_API_VERSION=3 fi # Enable use of Python virtual environments. Individual project use of # venvs are controlled by the PROJECT_VENV array; every project with # an entry in the array will be installed into the named venv. # By default this will put each project into its own venv. USE_VENV=$(trueorfalse False USE_VENV) # Add packages that need to be installed into a venv but are not in any # requirmenets files here, in a comma-separated list ADDITIONAL_VENV_PACKAGES=${ADITIONAL_VENV_PACKAGES:-""} # This can be used to turn database query logging on and off # (currently only implemented for MySQL backend) DATABASE_QUERY_LOGGING=$(trueorfalse False DATABASE_QUERY_LOGGING) # Set a timeout for git operations. If git is still running when the # timeout expires, the command will be retried up to 3 times. This is # in the format for timeout(1); # # DURATION is a floating point number with an optional suffix: 's' # for seconds (the default), 'm' for minutes, 'h' for hours or 'd' # for days. # # Zero disables timeouts GIT_TIMEOUT=${GIT_TIMEOUT:-0} # How should we be handling WSGI deployments. By default we're going # to allow for 2 modes, which is "uwsgi" which runs with an apache # proxy uwsgi in front of it, or "mod_wsgi", which runs in # apache. mod_wsgi is deprecated, don't use it. WSGI_MODE=${WSGI_MODE:-"uwsgi"} # Repositories # ------------ # Base GIT Repo URL GIT_BASE=${GIT_BASE:-https://opendev.org} # The location of REQUIREMENTS once cloned REQUIREMENTS_DIR=${REQUIREMENTS_DIR:-$DEST/requirements} # 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. # # Setting the variable to 'ALL' will activate the download for all # libraries. DEVSTACK_SERIES="wallaby" ############## # # OpenStack Server Components # ############## # block storage service CINDER_REPO=${CINDER_REPO:-${GIT_BASE}/openstack/cinder.git} CINDER_BRANCH=${CINDER_BRANCH:-$TARGET_BRANCH} # image catalog service GLANCE_REPO=${GLANCE_REPO:-${GIT_BASE}/openstack/glance.git} GLANCE_BRANCH=${GLANCE_BRANCH:-$TARGET_BRANCH} # django powered web control panel for openstack HORIZON_REPO=${HORIZON_REPO:-${GIT_BASE}/openstack/horizon.git} HORIZON_BRANCH=${HORIZON_BRANCH:-$TARGET_BRANCH} # unified auth system (manages accounts/tokens) KEYSTONE_REPO=${KEYSTONE_REPO:-${GIT_BASE}/openstack/keystone.git} KEYSTONE_BRANCH=${KEYSTONE_BRANCH:-$TARGET_BRANCH} # neutron service NEUTRON_REPO=${NEUTRON_REPO:-${GIT_BASE}/openstack/neutron.git} NEUTRON_BRANCH=${NEUTRON_BRANCH:-$TARGET_BRANCH} # compute service NOVA_REPO=${NOVA_REPO:-${GIT_BASE}/openstack/nova.git} NOVA_BRANCH=${NOVA_BRANCH:-$TARGET_BRANCH} # object storage service SWIFT_REPO=${SWIFT_REPO:-${GIT_BASE}/openstack/swift.git} SWIFT_BRANCH=${SWIFT_BRANCH:-$TARGET_BRANCH} # placement service PLACEMENT_REPO=${PLACEMENT_REPO:-${GIT_BASE}/openstack/placement.git} PLACEMENT_BRANCH=${PLACEMENT_BRANCH:-$TARGET_BRANCH} ############## # # Testing Components # ############## # consolidated openstack requirements REQUIREMENTS_REPO=${REQUIREMENTS_REPO:-${GIT_BASE}/openstack/requirements.git} REQUIREMENTS_BRANCH=${REQUIREMENTS_BRANCH:-$TARGET_BRANCH} # Tempest test suite TEMPEST_REPO=${TEMPEST_REPO:-${GIT_BASE}/openstack/tempest.git} TEMPEST_BRANCH=${TEMPEST_BRANCH:-$BRANCHLESS_TARGET_BRANCH} ############## # # OpenStack Client Library Components # Note default install is from pip, see LIBS_FROM_GIT # ############## # volume client GITREPO["python-cinderclient"]=${CINDERCLIENT_REPO:-${GIT_BASE}/openstack/python-cinderclient.git} GITBRANCH["python-cinderclient"]=${CINDERCLIENT_BRANCH:-$TARGET_BRANCH} # os-brick client for local volume attachement GITREPO["python-brick-cinderclient-ext"]=${BRICK_CINDERCLIENT_REPO:-${GIT_BASE}/openstack/python-brick-cinderclient-ext.git} GITBRANCH["python-brick-cinderclient-ext"]=${BRICK_CINDERCLIENT_BRANCH:-$TARGET_BRANCH} # python barbican client library GITREPO["python-barbicanclient"]=${BARBICANCLIENT_REPO:-${GIT_BASE}/openstack/python-barbicanclient.git} GITBRANCH["python-barbicanclient"]=${BARBICANCLIENT_BRANCH:-$TARGET_BRANCH} GITDIR["python-barbicanclient"]=$DEST/python-barbicanclient # python glance client library GITREPO["python-glanceclient"]=${GLANCECLIENT_REPO:-${GIT_BASE}/openstack/python-glanceclient.git} GITBRANCH["python-glanceclient"]=${GLANCECLIENT_BRANCH:-$TARGET_BRANCH} # ironic client GITREPO["python-ironicclient"]=${IRONICCLIENT_REPO:-${GIT_BASE}/openstack/python-ironicclient.git} GITBRANCH["python-ironicclient"]=${IRONICCLIENT_BRANCH:-$TARGET_BRANCH} # ironic plugin is out of tree, but nova uses it. set GITDIR here. GITDIR["python-ironicclient"]=$DEST/python-ironicclient # the base authentication plugins that clients use to authenticate GITREPO["keystoneauth"]=${KEYSTONEAUTH_REPO:-${GIT_BASE}/openstack/keystoneauth.git} GITBRANCH["keystoneauth"]=${KEYSTONEAUTH_BRANCH:-$TARGET_BRANCH} # python keystone client library to nova that horizon uses GITREPO["python-keystoneclient"]=${KEYSTONECLIENT_REPO:-${GIT_BASE}/openstack/python-keystoneclient.git} GITBRANCH["python-keystoneclient"]=${KEYSTONECLIENT_BRANCH:-$TARGET_BRANCH} # neutron client GITREPO["python-neutronclient"]=${NEUTRONCLIENT_REPO:-${GIT_BASE}/openstack/python-neutronclient.git} GITBRANCH["python-neutronclient"]=${NEUTRONCLIENT_BRANCH:-$TARGET_BRANCH} # python client library to nova that horizon (and others) use GITREPO["python-novaclient"]=${NOVACLIENT_REPO:-${GIT_BASE}/openstack/python-novaclient.git} GITBRANCH["python-novaclient"]=${NOVACLIENT_BRANCH:-$TARGET_BRANCH} # python swift client library GITREPO["python-swiftclient"]=${SWIFTCLIENT_REPO:-${GIT_BASE}/openstack/python-swiftclient.git} GITBRANCH["python-swiftclient"]=${SWIFTCLIENT_BRANCH:-$TARGET_BRANCH} # consolidated openstack python client GITREPO["python-openstackclient"]=${OPENSTACKCLIENT_REPO:-${GIT_BASE}/openstack/python-openstackclient.git} GITBRANCH["python-openstackclient"]=${OPENSTACKCLIENT_BRANCH:-$TARGET_BRANCH} # this doesn't exist in a lib file, so set it here GITDIR["python-openstackclient"]=$DEST/python-openstackclient # placement-api CLI GITREPO["osc-placement"]=${OSC_PLACEMENT_REPO:-${GIT_BASE}/openstack/osc-placement.git} GITBRANCH["osc-placement"]=${OSC_PLACEMENT_BRANCH:-$TARGET_BRANCH} ################### # # Oslo Libraries # Note default install is from pip, see LIBS_FROM_GIT # ################### # castellan key manager interface GITREPO["castellan"]=${CASTELLAN_REPO:-${GIT_BASE}/openstack/castellan.git} GITBRANCH["castellan"]=${CASTELLAN_BRANCH:-$TARGET_BRANCH} # cliff command line framework GITREPO["cliff"]=${CLIFF_REPO:-${GIT_BASE}/openstack/cliff.git} GITBRANCH["cliff"]=${CLIFF_BRANCH:-$TARGET_BRANCH} # async framework/helpers GITREPO["futurist"]=${FUTURIST_REPO:-${GIT_BASE}/openstack/futurist.git} GITBRANCH["futurist"]=${FUTURIST_BRANCH:-$TARGET_BRANCH} # debtcollector deprecation framework/helpers GITREPO["debtcollector"]=${DEBTCOLLECTOR_REPO:-${GIT_BASE}/openstack/debtcollector.git} GITBRANCH["debtcollector"]=${DEBTCOLLECTOR_BRANCH:-$TARGET_BRANCH} # helpful state machines GITREPO["automaton"]=${AUTOMATON_REPO:-${GIT_BASE}/openstack/automaton.git} GITBRANCH["automaton"]=${AUTOMATON_BRANCH:-$TARGET_BRANCH} # oslo.cache GITREPO["oslo.cache"]=${OSLOCACHE_REPO:-${GIT_BASE}/openstack/oslo.cache.git} GITBRANCH["oslo.cache"]=${OSLOCACHE_BRANCH:-$TARGET_BRANCH} # oslo.concurrency GITREPO["oslo.concurrency"]=${OSLOCON_REPO:-${GIT_BASE}/openstack/oslo.concurrency.git} GITBRANCH["oslo.concurrency"]=${OSLOCON_BRANCH:-$TARGET_BRANCH} # oslo.config GITREPO["oslo.config"]=${OSLOCFG_REPO:-${GIT_BASE}/openstack/oslo.config.git} GITBRANCH["oslo.config"]=${OSLOCFG_BRANCH:-$TARGET_BRANCH} # oslo.context GITREPO["oslo.context"]=${OSLOCTX_REPO:-${GIT_BASE}/openstack/oslo.context.git} GITBRANCH["oslo.context"]=${OSLOCTX_BRANCH:-$TARGET_BRANCH} # oslo.db GITREPO["oslo.db"]=${OSLODB_REPO:-${GIT_BASE}/openstack/oslo.db.git} GITBRANCH["oslo.db"]=${OSLODB_BRANCH:-$TARGET_BRANCH} # oslo.i18n GITREPO["oslo.i18n"]=${OSLOI18N_REPO:-${GIT_BASE}/openstack/oslo.i18n.git} GITBRANCH["oslo.i18n"]=${OSLOI18N_BRANCH:-$TARGET_BRANCH} # oslo.log GITREPO["oslo.log"]=${OSLOLOG_REPO:-${GIT_BASE}/openstack/oslo.log.git} GITBRANCH["oslo.log"]=${OSLOLOG_BRANCH:-$TARGET_BRANCH} # oslo.messaging GITREPO["oslo.messaging"]=${OSLOMSG_REPO:-${GIT_BASE}/openstack/oslo.messaging.git} GITBRANCH["oslo.messaging"]=${OSLOMSG_BRANCH:-$TARGET_BRANCH} # oslo.middleware GITREPO["oslo.middleware"]=${OSLOMID_REPO:-${GIT_BASE}/openstack/oslo.middleware.git} GITBRANCH["oslo.middleware"]=${OSLOMID_BRANCH:-$TARGET_BRANCH} # oslo.policy GITREPO["oslo.policy"]=${OSLOPOLICY_REPO:-${GIT_BASE}/openstack/oslo.policy.git} GITBRANCH["oslo.policy"]=${OSLOPOLICY_BRANCH:-$TARGET_BRANCH} # oslo.privsep GITREPO["oslo.privsep"]=${OSLOPRIVSEP_REPO:-${GIT_BASE}/openstack/oslo.privsep.git} GITBRANCH["oslo.privsep"]=${OSLOPRIVSEP_BRANCH:-$TARGET_BRANCH} # oslo.reports GITREPO["oslo.reports"]=${OSLOREPORTS_REPO:-${GIT_BASE}/openstack/oslo.reports.git} GITBRANCH["oslo.reports"]=${OSLOREPORTS_BRANCH:-$TARGET_BRANCH} # oslo.rootwrap GITREPO["oslo.rootwrap"]=${OSLORWRAP_REPO:-${GIT_BASE}/openstack/oslo.rootwrap.git} GITBRANCH["oslo.rootwrap"]=${OSLORWRAP_BRANCH:-$TARGET_BRANCH} # oslo.serialization GITREPO["oslo.serialization"]=${OSLOSERIALIZATION_REPO:-${GIT_BASE}/openstack/oslo.serialization.git} GITBRANCH["oslo.serialization"]=${OSLOSERIALIZATION_BRANCH:-$TARGET_BRANCH} # oslo.service GITREPO["oslo.service"]=${OSLOSERVICE_REPO:-${GIT_BASE}/openstack/oslo.service.git} GITBRANCH["oslo.service"]=${OSLOSERVICE_BRANCH:-$TARGET_BRANCH} # oslo.utils GITREPO["oslo.utils"]=${OSLOUTILS_REPO:-${GIT_BASE}/openstack/oslo.utils.git} GITBRANCH["oslo.utils"]=${OSLOUTILS_BRANCH:-$TARGET_BRANCH} # oslo.versionedobjects GITREPO["oslo.versionedobjects"]=${OSLOVERSIONEDOBJECTS_REPO:-${GIT_BASE}/openstack/oslo.versionedobjects.git} GITBRANCH["oslo.versionedobjects"]=${OSLOVERSIONEDOBJECTS_BRANCH:-$TARGET_BRANCH} # oslo.vmware GITREPO["oslo.vmware"]=${OSLOVMWARE_REPO:-${GIT_BASE}/openstack/oslo.vmware.git} GITBRANCH["oslo.vmware"]=${OSLOVMWARE_BRANCH:-$TARGET_BRANCH} # osprofiler GITREPO["osprofiler"]=${OSPROFILER_REPO:-${GIT_BASE}/openstack/osprofiler.git} GITBRANCH["osprofiler"]=${OSPROFILER_BRANCH:-$TARGET_BRANCH} # pycadf auditing library GITREPO["pycadf"]=${PYCADF_REPO:-${GIT_BASE}/openstack/pycadf.git} GITBRANCH["pycadf"]=${PYCADF_BRANCH:-$TARGET_BRANCH} # stevedore plugin manager GITREPO["stevedore"]=${STEVEDORE_REPO:-${GIT_BASE}/openstack/stevedore.git} GITBRANCH["stevedore"]=${STEVEDORE_BRANCH:-$TARGET_BRANCH} # taskflow plugin manager GITREPO["taskflow"]=${TASKFLOW_REPO:-${GIT_BASE}/openstack/taskflow.git} GITBRANCH["taskflow"]=${TASKFLOW_BRANCH:-$TARGET_BRANCH} # tooz plugin manager GITREPO["tooz"]=${TOOZ_REPO:-${GIT_BASE}/openstack/tooz.git} GITBRANCH["tooz"]=${TOOZ_BRANCH:-$TARGET_BRANCH} # pbr drives the setuptools configs GITREPO["pbr"]=${PBR_REPO:-${GIT_BASE}/openstack/pbr.git} GITBRANCH["pbr"]=${PBR_BRANCH:-$BRANCHLESS_TARGET_BRANCH} ################## # # Libraries managed by OpenStack programs (non oslo) # ################## # cursive library GITREPO["cursive"]=${CURSIVE_REPO:-${GIT_BASE}/openstack/cursive.git} GITBRANCH["cursive"]=${CURSIVE_BRANCH:-$TARGET_BRANCH} # glance store library GITREPO["glance_store"]=${GLANCE_STORE_REPO:-${GIT_BASE}/openstack/glance_store.git} GITBRANCH["glance_store"]=${GLANCE_STORE_BRANCH:-$TARGET_BRANCH} # keystone middleware GITREPO["keystonemiddleware"]=${KEYSTONEMIDDLEWARE_REPO:-${GIT_BASE}/openstack/keystonemiddleware.git} GITBRANCH["keystonemiddleware"]=${KEYSTONEMIDDLEWARE_BRANCH:-$TARGET_BRANCH} # ceilometer middleware GITREPO["ceilometermiddleware"]=${CEILOMETERMIDDLEWARE_REPO:-${GIT_BASE}/openstack/ceilometermiddleware.git} GITBRANCH["ceilometermiddleware"]=${CEILOMETERMIDDLEWARE_BRANCH:-$TARGET_BRANCH} GITDIR["ceilometermiddleware"]=$DEST/ceilometermiddleware # openstacksdk OpenStack Python SDK GITREPO["openstacksdk"]=${OPENSTACKSDK_REPO:-${GIT_BASE}/openstack/openstacksdk.git} GITBRANCH["openstacksdk"]=${OPENSTACKSDK_BRANCH:-$TARGET_BRANCH} # os-brick library to manage local volume attaches GITREPO["os-brick"]=${OS_BRICK_REPO:-${GIT_BASE}/openstack/os-brick.git} GITBRANCH["os-brick"]=${OS_BRICK_BRANCH:-$TARGET_BRANCH} # os-client-config to manage clouds.yaml and friends GITREPO["os-client-config"]=${OS_CLIENT_CONFIG_REPO:-${GIT_BASE}/openstack/os-client-config.git} GITBRANCH["os-client-config"]=${OS_CLIENT_CONFIG_BRANCH:-$TARGET_BRANCH} GITDIR["os-client-config"]=$DEST/os-client-config # os-vif library to communicate between Neutron to Nova GITREPO["os-vif"]=${OS_VIF_REPO:-${GIT_BASE}/openstack/os-vif.git} GITBRANCH["os-vif"]=${OS_VIF_BRANCH:-$TARGET_BRANCH} # osc-lib OpenStackClient common lib GITREPO["osc-lib"]=${OSC_LIB_REPO:-${GIT_BASE}/openstack/osc-lib.git} GITBRANCH["osc-lib"]=${OSC_LIB_BRANCH:-$TARGET_BRANCH} # ironic common lib GITREPO["ironic-lib"]=${IRONIC_LIB_REPO:-${GIT_BASE}/openstack/ironic-lib.git} GITBRANCH["ironic-lib"]=${IRONIC_LIB_BRANCH:-$TARGET_BRANCH} # this doesn't exist in a lib file, so set it here GITDIR["ironic-lib"]=$DEST/ironic-lib # diskimage-builder tool GITREPO["diskimage-builder"]=${DIB_REPO:-${GIT_BASE}/openstack/diskimage-builder.git} GITBRANCH["diskimage-builder"]=${DIB_BRANCH:-$BRANCHLESS_TARGET_BRANCH} GITDIR["diskimage-builder"]=$DEST/diskimage-builder # neutron-lib library containing neutron stable non-REST interfaces GITREPO["neutron-lib"]=${NEUTRON_LIB_REPO:-${GIT_BASE}/openstack/neutron-lib.git} GITBRANCH["neutron-lib"]=${NEUTRON_LIB_BRANCH:-$TARGET_BRANCH} GITDIR["neutron-lib"]=$DEST/neutron-lib # os-traits library for resource provider traits in the placement service GITREPO["os-traits"]=${OS_TRAITS_REPO:-${GIT_BASE}/openstack/os-traits.git} GITBRANCH["os-traits"]=${OS_TRAITS_BRANCH:-$TARGET_BRANCH} # ovsdbapp used by neutron GITREPO["ovsdbapp"]=${OVSDBAPP_REPO:-${GIT_BASE}/openstack/ovsdbapp.git} GITBRANCH["ovsdbapp"]=${OVSDBAPP_BRANCH:-$TARGET_BRANCH} GITDIR["ovsdbapp"]=$DEST/ovsdbapp ################## # # TripleO / Heat Agent Components # ################## # run-parts script required by os-refresh-config DIB_UTILS_REPO=${DIB_UTILS_REPO:-${GIT_BASE}/openstack/dib-utils.git} DIB_UTILS_BRANCH=${DIB_UTILS_BRANCH:-$BRANCHLESS_TARGET_BRANCH} # os-apply-config configuration template tool OAC_REPO=${OAC_REPO:-${GIT_BASE}/openstack/os-apply-config.git} OAC_BRANCH=${OAC_BRANCH:-$TRAILING_TARGET_BRANCH} # os-collect-config configuration agent OCC_REPO=${OCC_REPO:-${GIT_BASE}/openstack/os-collect-config.git} OCC_BRANCH=${OCC_BRANCH:-$TRAILING_TARGET_BRANCH} # os-refresh-config configuration run-parts tool ORC_REPO=${ORC_REPO:-${GIT_BASE}/openstack/os-refresh-config.git} ORC_BRANCH=${ORC_BRANCH:-$TRAILING_TARGET_BRANCH} ################# # # 3rd Party Components (non pip installable) # # NOTE(sdague): these should be converted to release version installs or removed # ################# # ironic python agent IRONIC_PYTHON_AGENT_REPO=${IRONIC_PYTHON_AGENT_REPO:-${GIT_BASE}/openstack/ironic-python-agent.git} IRONIC_PYTHON_AGENT_BRANCH=${IRONIC_PYTHON_AGENT_BRANCH:-$TARGET_BRANCH} # a websockets/html5 or flash powered VNC console for vm instances NOVNC_REPO=${NOVNC_REPO:-https://github.com/novnc/noVNC.git} NOVNC_BRANCH=${NOVNC_BRANCH:-v1.1.0} # a websockets/html5 or flash powered SPICE console for vm instances SPICE_REPO=${SPICE_REPO:-http://anongit.freedesktop.org/git/spice/spice-html5.git} SPICE_BRANCH=${SPICE_BRANCH:-$BRANCHLESS_TARGET_BRANCH} # Global flag used to configure Tempest and potentially other services if # volume multiattach is supported. In Queens, only the libvirt compute driver # and lvm volume driver support multiattach, and qemu must be less than 2.10 # or libvirt must be greater than or equal to 3.10. ENABLE_VOLUME_MULTIATTACH=$(trueorfalse False ENABLE_VOLUME_MULTIATTACH) # Nova hypervisor configuration. We default to libvirt with **kvm** but will # drop back to **qemu** if we are unable to load the kvm module. ``stack.sh`` can # also install an **LXC**, **OpenVZ** or **XenAPI** based system. If xenserver-core # is installed, the default will be XenAPI DEFAULT_VIRT_DRIVER=libvirt is_package_installed xenserver-core && DEFAULT_VIRT_DRIVER=xenserver VIRT_DRIVER=${VIRT_DRIVER:-$DEFAULT_VIRT_DRIVER} case "$VIRT_DRIVER" in ironic|libvirt) LIBVIRT_TYPE=${LIBVIRT_TYPE:-kvm} LIBVIRT_CPU_MODE=${LIBVIRT_CPU_MODE:-none} if [[ "$os_VENDOR" =~ (Debian|Ubuntu) ]]; then # The groups change with newer libvirt. Older Ubuntu used # 'libvirtd', but now uses libvirt like Debian. Do a quick check # to see if libvirtd group already exists to handle grenade's case. LIBVIRT_GROUP=$(cut -d ':' -f 1 /etc/group | grep 'libvirtd$' || true) LIBVIRT_GROUP=${LIBVIRT_GROUP:-libvirt} else LIBVIRT_GROUP=libvirtd fi ;; lxd) LXD_GROUP=${LXD_GROUP:-"lxd"} ;; docker|zun) DOCKER_GROUP=${DOCKER_GROUP:-"docker"} ;; 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:-"0.5.1"} CIRROS_ARCH=${CIRROS_ARCH:-"x86_64"} # Set default image based on ``VIRT_DRIVER`` and ``LIBVIRT_TYPE``, either of # which may be set in ``local.conf``. Also allow ``DEFAULT_IMAGE_NAME`` and # ``IMAGE_URLS`` to be set in the `localrc` section of ``local.conf``. DOWNLOAD_DEFAULT_IMAGES=$(trueorfalse True DOWNLOAD_DEFAULT_IMAGES) if [[ "$DOWNLOAD_DEFAULT_IMAGES" == "True" ]]; then if [[ -n "$IMAGE_URLS" ]]; then IMAGE_URLS+="," fi case "$VIRT_DRIVER" in libvirt) case "$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}-${CIRROS_ARCH}-rootfs} DEFAULT_IMAGE_FILE_NAME=${DEFAULT_IMAGE_FILE_NAME:-cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-rootfs.img.gz} IMAGE_URLS+="http://download.cirros-cloud.net/${CIRROS_VERSION}/${DEFAULT_IMAGE_FILE_NAME}";; *) # otherwise, use the qcow image DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-disk} DEFAULT_IMAGE_FILE_NAME=${DEFAULT_IMAGE_FILE_NAME:-cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-disk.img} IMAGE_URLS+="http://download.cirros-cloud.net/${CIRROS_VERSION}/${DEFAULT_IMAGE_FILE_NAME}";; esac ;; vsphere) DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-0.3.2-i386-disk.vmdk} DEFAULT_IMAGE_FILE_NAME=${DEFAULT_IMAGE_FILE_NAME:-$DEFAULT_IMAGE_NAME} IMAGE_URLS+="http://partnerweb.vmware.com/programs/vmdkimage/${DEFAULT_IMAGE_FILE_NAME}";; xenserver) DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-0.3.5-x86_64-disk} DEFAULT_IMAGE_FILE_NAME=${DEFAULT_IMAGE_NAME:-cirros-0.3.5-x86_64-disk.vhd.tgz} IMAGE_URLS+="http://ca.downloads.xensource.com/OpenStack/cirros-0.3.5-x86_64-disk.vhd.tgz" IMAGE_URLS+=",http://download.cirros-cloud.net/${CIRROS_VERSION}/cirros-${CIRROS_VERSION}-x86_64-uec.tar.gz";; fake) # Use the same as the default for libvirt DEFAULT_IMAGE_NAME=${DEFAULT_IMAGE_NAME:-cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-disk} DEFAULT_IMAGE_FILE_NAME=${DEFAULT_IMAGE_FILE_NAME:-cirros-${CIRROS_VERSION}-${CIRROS_ARCH}-disk.img} IMAGE_URLS+="http://download.cirros-cloud.net/${CIRROS_VERSION}/${DEFAULT_IMAGE_FILE_NAME}";; esac DOWNLOAD_DEFAULT_IMAGES=False fi # This is a comma separated list of extra URLS to be listed for # download by the tools/image_list.sh script. CI environments can # pre-download these URLS and place them in $FILES. Later scripts can # then use "get_extra_file " which will print out the path to the # file; it will either be downloaded on demand or acquired from the # cache if there. EXTRA_CACHE_URLS="" # etcd3 defaults ETCD_VERSION=${ETCD_VERSION:-v3.3.12} ETCD_SHA256_AMD64=${ETCD_SHA256_AMD64:-"dc5d82df095dae0a2970e4d870b6929590689dd707ae3d33e7b86da0f7f211b6"} ETCD_SHA256_ARM64=${ETCD_SHA256_ARM64:-"170b848ac1a071fe7d495d404a868a2c0090750b2944f8a260ef1c6125b2b4f4"} ETCD_SHA256_PPC64=${ETCD_SHA256_PPC64:-"77f807b1b51abbf51e020bb05bdb8ce088cb58260fcd22749ea32eee710463d3"} # etcd v3.2.x doesn't have anything for s390x ETCD_SHA256_S390X=${ETCD_SHA256_S390X:-""} # Make sure etcd3 downloads the correct architecture if is_arch "x86_64"; then ETCD_ARCH="amd64" ETCD_SHA256=${ETCD_SHA256:-$ETCD_SHA256_AMD64} elif is_arch "aarch64"; then ETCD_ARCH="arm64" ETCD_SHA256=${ETCD_SHA256:-$ETCD_SHA256_ARM64} elif is_arch "ppc64le"; then ETCD_ARCH="ppc64le" ETCD_SHA256=${ETCD_SHA256:-$ETCD_SHA256_PPC64} elif is_arch "s390x"; then # An etcd3 binary for s390x is not available on github like it is # for other arches. Only continue if a custom download URL was # provided. if [[ -n "${ETCD_DOWNLOAD_URL}" ]]; then ETCD_ARCH="s390x" ETCD_SHA256=${ETCD_SHA256:-$ETCD_SHA256_S390X} else exit_distro_not_supported "etcd3. No custom ETCD_DOWNLOAD_URL provided." fi else exit_distro_not_supported "invalid hardware type - $ETCD_ARCH" fi ETCD_PORT=${ETCD_PORT:-2379} ETCD_PEER_PORT=${ETCD_PEER_PORT:-2380} ETCD_DOWNLOAD_URL=${ETCD_DOWNLOAD_URL:-https://github.com/etcd-io/etcd/releases/download} ETCD_NAME=etcd-$ETCD_VERSION-linux-$ETCD_ARCH ETCD_DOWNLOAD_FILE=$ETCD_NAME.tar.gz ETCD_DOWNLOAD_LOCATION=$ETCD_DOWNLOAD_URL/$ETCD_VERSION/$ETCD_DOWNLOAD_FILE # etcd is always required, so place it into list of pre-cached downloads EXTRA_CACHE_URLS+=",$ETCD_DOWNLOAD_LOCATION" # Cache settings CACHE_BACKEND=${CACHE_BACKEND:-"dogpile.cache.memcached"} MEMCACHE_SERVERS=${MEMCACHE_SERVERS:-"localhost:11211"} # Detect duplicate values in IMAGE_URLS for image_url in ${IMAGE_URLS//,/ }; do if [ $(echo "$IMAGE_URLS" | grep -o -F "$image_url" | wc -l) -gt 1 ]; then die $LINENO "$image_url is duplicate, please remove it from IMAGE_URLS." fi done # 24Gb default volume backing file size VOLUME_BACKING_FILE_SIZE=${VOLUME_BACKING_FILE_SIZE:-24G} # Prefixes for volume and instance names VOLUME_NAME_PREFIX=${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"} PUBLIC_INTERFACE=${PUBLIC_INTERFACE:-""} # Allow the use of an alternate protocol (such as https) for service endpoints SERVICE_PROTOCOL=${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=${API_WORKERS:=$(( ($(nproc)/4)<2 ? 2 : ($(nproc)/4) ))} # Service startup timeout SERVICE_TIMEOUT=${SERVICE_TIMEOUT:-60} # Timeout for compute node registration in Nova NOVA_READY_TIMEOUT=${NOVA_READY_TIMEOUT:-$SERVICE_TIMEOUT} # Service graceful shutdown timeout SERVICE_GRACEFUL_SHUTDOWN_TIMEOUT=${SERVICE_GRACEFUL_SHUTDOWN_TIMEOUT:-5} # Service graceful shutdown timeout WORKER_TIMEOUT=${WORKER_TIMEOUT:-90} # Common Configuration # -------------------- # Set ``OFFLINE`` to ``True`` to configure ``stack.sh`` to run cleanly without # Internet access. ``stack.sh`` must have been previously run with Internet # access to install prerequisites and fetch repositories. OFFLINE=$(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=${FLOATING_RANGE:-172.24.4.0/24} IPV4_ADDRS_SAFE_TO_USE=${IPV4_ADDRS_SAFE_TO_USE:-10.0.0.0/22} FIXED_RANGE=${FIXED_RANGE:-$IPV4_ADDRS_SAFE_TO_USE} HOST_IP_IFACE=${HOST_IP_IFACE:-} HOST_IP=${HOST_IP:-} HOST_IPV6=${HOST_IPV6:-} HOST_IP=$(get_default_host_ip "$FIXED_RANGE" "$FLOATING_RANGE" "$HOST_IP_IFACE" "$HOST_IP" "inet") if [ "$HOST_IP" == "" ]; then die $LINENO "Could not determine host ip address. See local.conf for suggestions on setting HOST_IP." fi HOST_IPV6=$(get_default_host_ip "" "" "$HOST_IP_IFACE" "$HOST_IPV6" "inet6") # Whether or not the port_security extension should be enabled for Neutron. NEUTRON_PORT_SECURITY=$(trueorfalse True NEUTRON_PORT_SECURITY) # SERVICE IP version # This is the IP version that services should be listening on, as well # as using to register their endpoints with keystone. SERVICE_IP_VERSION=${SERVICE_IP_VERSION:-4} # Validate SERVICE_IP_VERSION # It would be nice to support "4+6" here as well, but that will require # multiple calls into keystone to register endpoints, so for now let's # just support one or the other. if [[ $SERVICE_IP_VERSION != "4" ]] && [[ $SERVICE_IP_VERSION != "6" ]]; then die $LINENO "SERVICE_IP_VERSION must be either 4 or 6" fi if [[ "$SERVICE_IP_VERSION" == 4 ]]; then DEF_SERVICE_HOST=$HOST_IP DEF_SERVICE_LOCAL_HOST=127.0.0.1 DEF_SERVICE_LISTEN_ADDRESS=0.0.0.0 fi if [[ "$SERVICE_IP_VERSION" == 6 ]]; then if [ "$HOST_IPV6" == "" ]; then die $LINENO "Could not determine host IPv6 address. See local.conf for suggestions on setting HOST_IPV6." fi DEF_SERVICE_HOST=[$HOST_IPV6] DEF_SERVICE_LOCAL_HOST=::1 DEF_SERVICE_LISTEN_ADDRESS="[::]" fi # This is either 0.0.0.0 for IPv4 or [::] for IPv6 SERVICE_LISTEN_ADDRESS=${SERVICE_LISTEN_ADDRESS:-${DEF_SERVICE_LISTEN_ADDRESS}} # Allow the use of an alternate hostname (such as localhost/127.0.0.1) for # service endpoints. Default is dependent on SERVICE_IP_VERSION above. SERVICE_HOST=${SERVICE_HOST:-${DEF_SERVICE_HOST}} # This is either 127.0.0.1 for IPv4 or ::1 for IPv6 SERVICE_LOCAL_HOST=${SERVICE_LOCAL_HOST:-${DEF_SERVICE_LOCAL_HOST}} REGION_NAME=${REGION_NAME:-RegionOne} # Configure services to use syslog instead of writing to individual log files SYSLOG=$(trueorfalse False SYSLOG) SYSLOG_HOST=${SYSLOG_HOST:-$HOST_IP} SYSLOG_PORT=${SYSLOG_PORT:-516} # Set global ``GIT_DEPTH=`` to limit the history depth of the git clone # Set to 0 to disable shallow cloning GIT_DEPTH=${GIT_DEPTH:-0} # We may not need to recreate database in case 2 Keystone services # sharing the same database. It would be useful for multinode Grenade tests. RECREATE_KEYSTONE_DB=$(trueorfalse True RECREATE_KEYSTONE_DB) # Following entries need to be last items in file # New way is LOGDIR for all logs and LOGFILE for stack.sh trace log, but if not fully-qualified will be in LOGDIR # LOGFILE LOGDIR output # not set not set (new) set LOGDIR from default # set not set stack.sh log to LOGFILE, (new) set LOGDIR from LOGFILE # not set set screen logs to LOGDIR # set set stack.sh log to LOGFILE, screen logs to LOGDIR # Set up new logging defaults if [[ -z "${LOGDIR:-}" ]]; then default_logdir=$DEST/logs if [[ -z "${LOGFILE:-}" ]]; then # Nothing is set, we need a default LOGDIR="$default_logdir" else # Set default LOGDIR LOGDIR="${LOGFILE%/*}" logfile="${LOGFILE##*/}" if [[ -z "$LOGDIR" || "$LOGDIR" == "$logfile" ]]; then # LOGFILE had no path, set a default LOGDIR="$default_logdir" fi fi unset default_logdir logfile fi # ``LOGDIR`` is always set at this point so it is not useful as a 'enable' for service logs # System-wide ulimit file descriptors override ULIMIT_NOFILE=${ULIMIT_NOFILE:-2048} # Local variables: # mode: shell-script # End: