361 lines
13 KiB
INI
361 lines
13 KiB
INI
# Devstack2 local configuration
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# When a value looks like a bash variable + default then it is parsed like a bash
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# variable and will perform similar lookups. Ie ${SQL_HOST:-localhost} will
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# look in environment variable SQL_HOST and if that does not exist then
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# localhost will be used instead.
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#
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# We also allow for simple referencing of other variables, similar to bash
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# variables to occur when a keys value like the following format are found:
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#
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# web_host = ${RUNNING_HOST:-http://$(X:Y)}
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#
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# For this example, the RUNNING_HOST enviroment variable will be referenced.
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# If it is not found (no value exists), then "http://$(X:Y)" will be
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# examined and found to be contain a expression (denoted by "$(X:Y)").
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#
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# Then in that expression there are components of the format "X:Y" which the
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# configuration class will attempt to resolve those values by looking up in the
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# configuration file for a value in section "X" with option "Y" and replacing the
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# retrieved value for what was previously "$(X:Y)". Multiple of these "expressions"
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# are allowed and each will have its expression "text" replaced with the resolved
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# value before the final value for the original variable is determined.
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#
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# For this example if the section X with option Y contained value "1.2.3.4" then
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# the final string would be "http://1.2.3.4" which would then be cached as the value
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# for option web_host.
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[default]
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# Where is rabbit located?
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rabbit_host = ${RABBIT_HOST:-$(host:ip)}
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# Sys log enabled or not
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syslog = 0
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# Which run type to use [fork (the default), upstart, screen]
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run_type = fork
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[upstart]
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# These flags are used for starting components under upstart (if default/run_type is upstart)
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respawn = 1
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# Note that we support component start/stop and "all"
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# Start and stop, this is the "all" event name
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start_event = all_os_start
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stop_event = all_os_stop
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[host]
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# Set api host endpoint
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# If this is empty in code we will try to determine your network ip.
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ip = ${HOST_IP:-}
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[db]
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# Where you db is located at and how to access it.
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sql_host = ${SQL_HOST:-localhost}
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sql_user = ${SQL_USER:-root}
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port = ${SQL_PORT:-3306}
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# What type of database is this?
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type = ${SQL_TYPE:-mysql}
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[keystone]
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# Where is the keystone auth host at?
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keystone_auth_host = ${KEYSTONE_AUTH_HOST:-$(host:ip)}
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keystone_auth_port = ${KEYSTONE_AUTH_PORT:-35357}
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keystone_auth_protocol = ${KEYSTONE_AUTH_PROTOCOL:-http}
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# Where is the keystone service host at?
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keystone_service_host = ${KEYSTONE_SERVICE_HOST:-$(host:ip)}
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keystone_service_port = ${KEYSTONE_SERVICE_PORT:-5000}
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keystone_service_protocol = ${KEYSTONE_SERVICE_PROTOCOL:-http}
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[nova]
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# Should nova be in verbose mode?
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verbose = ${NOVA_VERBOSE:-1}
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logdir = ${NOVA_LOGDIR:-/var/log/nova}
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# Allow the admin api to be accessible?
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allow_admin_api = 1
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# Currently novaclient needs you to specify the *compute api* version.
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nova_version = ${NOVA_VERSION:-1.1}
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# Which scheduler will nova be running with?
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scheduler = ${NOVA_SCHEDULER:-nova.scheduler.filter_scheduler.FilterScheduler}
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# Network settings
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# Very useful to read over:
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# http://docs.openstack.org/cactus/openstack-compute/admin/content/configuring-networking-on-the-compute-node.html
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fixed_range = ${NOVA_FIXED_RANGE:-10.0.0.0/24}
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fixed_network_size = ${NOVA_FIXED_NETWORK_SIZE:-256}
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network_manager = ${NET_MAN:-FlatDHCPManager}
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public_interface = ${PUBLIC_INTERFACE:-eth0}
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# DHCP Warning: If your flat interface device uses DHCP, there will be a hiccup while the network
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# is moved from the flat interface to the flat network bridge. This will happen when you launch
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# your first instance. Upon launch you will lose all connectivity to the node, and the vm launch will probably fail.
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#
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# If you are running on a single node and don't need to access the VMs from devices other than
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# that node, you can set the flat interface to the same value as FLAT_NETWORK_BRIDGE. This will stop the network hiccup from occurring.
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flat_interface = ${FLAT_INTERFACE:-eth0}
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vlan_interface = ${VLAN_INTERFACE:-$(nova:public_interface)}
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flat_network_bridge = ${FLAT_NETWORK_BRIDGE:-br100}
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# Test floating pool and range are used for testing.
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# They are defined here until the admin APIs can replace nova-manage
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floating_range = ${FLOATING_RANGE:-172.24.4.224/28}
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test_floating_pool = ${TEST_FLOATING_POOL:-test}
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test_floating_range = ${TEST_FLOATING_RANGE:-192.168.253.0/29}
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# TODO document these
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vncproxy_url = ${VNCPROXY_URL:-http://$(host:ip):6080/vnc_auto.html}
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xvpvncproxy_url = ${XVPVNCPROXY_URL:-http://$(host:ip):6081/console}
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vncserver_listen = ${VNCSERVER_LISTEN:-127.0.0.1}
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vncserver_proxyclient_address = ${VNCSERVER_PROXYCLIENT_ADDRESS:-}
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ec2_dmz_host = ${EC2_DMZ_HOST:-$(host:ip)}
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# This decides which firewall driver to use.
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# The default here should work with linux + iptables.
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libvirt_firewall_driver = IptablesFirewallDriver
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# Volume settings
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volume_group = ${VOLUME_GROUP:-nova-volumes}
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volume_backing_file = ${VOLUME_BACKING_FILE:-}
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volume_backing_file_size =${VOLUME_BACKING_FILE_SIZE:-2052M}
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volume_name_prefix = ${VOLUME_NAME_PREFIX:-volume-}
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volume_name_postfix = ${VOLUME_NAME_POSTFIX:-%08x}
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# How instances will be named
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instance_name_prefix = ${INSTANCE_NAME_PREFIX:-instance-}
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instance_name_postfix = ${INSTANCE_NAME_POSTFIX:-%08x}
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# Where instances will be stored
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instances_path = ${INSTANCES_PATH:-}
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# Are we setup in multihost mode?
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# Multi-host is a mode where each compute node runs its own network node.
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# This allows network operations and routing for a VM to occur on the server that is running the VM - removing a SPOF and bandwidth bottleneck.
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multi_host = ${MULTI_HOST:-0}
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# Virtualization settings
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# Drivers known (libvirt, xensever, vmware, baremetal)
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# Defaults to libvirt (the most compatible) if unknown.
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virt_driver = ${VIRT_DRIVER:-libvirt}
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# Only useful if above libvirt_type is "libvirt"
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# Types known (qemu, kvm, xen, uml, lxc)
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# Defaults to qemu (the most compatible) if unknown (or blank).
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libvirt_type = ${LIBVIRT_TYPE:-}
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# What type of image service will be used?
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img_service = ${IMG_SERVICE:-nova.image.glance.GlanceImageService}
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glance_server = ${GLANCE_SERVER:-$(host:ip):9292}
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# Used however you want - ensure you know nova's conf file format if you use this!
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extra_flags = ${NOVA_EXTRA_FLAGS:-}
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# Xen server/api settings
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xa_connection_url = http://169.254.0.1:80/
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xa_connection_username = root
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xs_firewall_driver = IptablesFirewallDriver
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xs_flat_interface = eth1
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xs_flat_network_bridge = xapi1
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[extern]
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# Set the ec2 url so euca2ools works
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# Typically like http://localhost:8773/services/Cloud
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# If blank we will generate this.
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ec2_url = ${EC2_URL:-http://$(host:ip):8773/services/Cloud}
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# Set the s3 url so euca2ools works
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# Typically like http://localhost:3333/services/Cloud
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# If blank we will generate this.
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s3_url = ${S3_URL:-http://$(host:ip):3333/services/Cloud}
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# Not used (currently)??
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ec2_user_id = 42
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ec2_cert_fn = ~/cert.pm
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# Not used (currently)??
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nova_cert_fn = ~/cert.pm
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[git]
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# Compute service git repo
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nova_repo = git://github.com/openstack/nova.git
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nova_branch = master
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# Storage service git repo
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swift_repo = git://github.com/openstack/swift.git
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swift_branch = master
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# Image catalog service git repo
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glance_repo = git://github.com/openstack/glance.git
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glance_branch = master
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# Unified auth system (manages accounts/tokens) git repo
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keystone_repo = git://github.com/openstack/keystone.git
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keystone_branch = master
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# A websockets/html5 or flash powered VNC console for vm instances
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novnc_repo = git://github.com/cloudbuilders/noVNC.git
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novnc_branch = master
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# Django powered web control panel for openstack
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horizon_repo = git://github.com/openstack/horizon.git
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horizon_branch = master
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# Python keystone client library to nova that horizon uses
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keystoneclient_repo = git://github.com/openstack/python-keystoneclient.git
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keystoneclient_branch = master
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# Python client library to nova that horizon (and others) use
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novaclient_repo = git://github.com/openstack/python-novaclient.git
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novaclient_branch = master
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# Quantum service git repo
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quantum_repo = git://github.com/openstack/quantum.git
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quantum_branch = master
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# Quantum client git repo
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quantum_client_repo = git://github.com/openstack/python-quantumclient.git
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quantum_client_branch = master
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# Melange service
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melange_repo = git://github.com/openstack/melange.git
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melange_branch = master
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# Python melange client library
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melangeclient_repo = git://github.com/openstack/python-melangeclient.git
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melangeclient_branch = master
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[melange]
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# Default Melange Port
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m_port = ${M_PORT:-9898}
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# Default Melange Host
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m_host = ${M_HOST:-$(host:ip)}
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# Melange MAC Address Range
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m_mac_range = ${M_MAC_RANGE:-FE-EE-DD-00-00-00/24}
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[quantum]
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# Where your quantum host is at
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q_host = ${Q_HOST:-$(host:ip)}
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# Which port your quantum host is at
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q_port = ${Q_PORT:-9696}
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# Which type of quantum plugin you will be using
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q_plugin = ${Q_PLUGIN:-openvswitch}
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# Default OVS bridge name
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ovs_bridge = br-int
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# OVS bridge external name
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ovs_bridge_external_name = br-int
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[horizon]
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# What user will apache be serving from.
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#
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# Root will typically not work (for apache on most distros)
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# sudo adduser <username> then sudo adduser <username> admin will be what you want to set this up (in ubuntu)
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# I typically use user "horizon" for ubuntu and the runtime user (who will have sudo access) for RHEL.
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#
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# NOTE: If blank the currently executing user will be used.
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apache_user = ${APACHE_USER:-}
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# This is the group of the previous user (adjust as needed)
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apache_group = ${APACHE_GROUP:-$(horizon:apache_user)}
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# Port horizon should run on
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port = ${HORIZON_PORT:-80}
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[swift]
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# By default the location of swift drives and objects is located inside the swift source directory.
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# SWIFT_DATA_LOCATION variable allow you to redefine this.
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data_location = ${SWIFT_DATA_LOCATION:-data}
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# TBD
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swift_user = ${SWIFT_USER:-root}
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# TBD
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swift_group = ${SWIFT_GROUP:-$(swift:swift_user)}
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# We will create a loop-back disk formatted as XFS to store the swift data.
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# By default the disk size is 1 gigabyte. The variable SWIFT_LOOPBACK_DISK_SIZE
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# specified in bytes allow you to change that.
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loopback_disk_size = ${SWIFT_LOOPBACK_DISK_SIZE:-1G}
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# The ring uses a configurable number of bits from a path’s MD5 hash as a
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# partition index that designates a device. The number of bits kept from the
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# hash is known as the partition power, and 2 to the partition power indicates
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# the partition count. Partitioning the full MD5 hash ring allows other parts
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# of the cluster to work in batches of items at once which ends up either more
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# efficient or at least less complex than working with each item separately or
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# the entire cluster all at once. By default we define 9 for the partition count (which mean 512).
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partition_power_size = ${SWIFT_PARTITION_POWER_SIZE:-9}
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[img]
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# Specify a comma-separated list of uec images to download and install into glance.
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# supported urls here are:
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#
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# * "uec-style" images:
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# If the file ends in .tar.gz, uncompress the tarball and and select the first
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# .img file inside it as the image. If present, use "*-vmlinuz*" as the kernel
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# and "*-initrd*" as the ramdisk
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# example: http://cloud-images.ubuntu.com/releases/oneiric/release/ubuntu-11.10-server-cloudimg-amd64.tar.gz
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# * disk image (*.img,*.img.gz)
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# if file ends in .img, then it will be uploaded and registered as a to
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# glance as a disk image. If it ends in .gz, it is uncompressed first.
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# example:
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# http://cloud-images.ubuntu.com/releases/oneiric/release/ubuntu-11.10-server-cloudimg-armel-disk1.img
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# http://launchpad.net/cirros/trunk/0.3.0/+download/cirros-0.3.0-x86_64-rootfs.img.gz
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# old ttylinux-uec image
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#image_urls="http://smoser.brickies.net/ubuntu/ttylinux-uec/ttylinux-uec-amd64-11.2_2.6.35-15_1.tar.gz"
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# cirros full disk image
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#image_urls="http://launchpad.net/cirros/trunk/0.3.0/+download/cirros-0.3.0-x86_64-disk.img"
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# uec style cirros 0.3.0 (x86_64) and ubuntu oneiric (x86_64)
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image_urls = http://launchpad.net/cirros/trunk/0.3.0/+download/cirros-0.3.0-x86_64-uec.tar.gz, http://uec-images.ubuntu.com/oneiric/current/oneiric-server-cloudimg-amd64.tar.gz
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[passwords]
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# This section is where passwords could be stored. This section also has special meaning
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# in code in that the configuration class we use will look in this section for passwords
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# and if no password is found (ie an empty string) then the user will be prompted to enter
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# a password, if they do not enter one (or its blank) then one will be generated for the user.
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# You will need to send the same MYSQL_PASSWORD to every host if you are doing a multi-node devstack installation.
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sql = ${MYSQL_PASSWORD:-}
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# Change the rabbit password since the default is "guest"
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rabbit = ${RABBIT_PASSWORD:-}
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# This password will be used by horizon and keystone as the admin password
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horizon_keystone_admin = ${ADMIN_PASSWORD:-}
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# Openstack components need to have an admin token to validate user tokens.
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service_token = ${SERVICE_TOKEN:-}
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service_password = ${SERVICE_PASSWORD:-}
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# The xen api connection password
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xenapi_connection = ${XENAPI_CONNECTION:-}
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# swift_hash is a random unique string for a swift cluster that can never change.
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swift_hash = ${SWIFT_HASH:-}
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