.. _configure-networking: Configure the Networking service for bare metal provisioning ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ You need to configure Networking so that the bare metal server can communicate with the Networking service for DHCP, PXE boot and other requirements. This section covers configuring Networking for a single flat network for bare metal provisioning. It is recommended to use the baremetal ML2 mechanism driver and L2 agent for proper integration with the Networking service. Documentation regarding installation and configuration of the baremetal mechanism driver and L2 agent is available `here `_. For use with `routed networks `_ the baremetal ML2 components are required. .. Note:: When the baremetal ML2 components are *not* used, ports in the Networking service will have status: ``DOWN``, and binding_vif_type: ``binding_failed``. This was always the status for Bare Metal service ``flat`` network interface ports prior to the introduction of the baremetal ML2 integration. For a non-routed network, bare metal servers can still be deployed and are functional, despite this port binding state in the Networking service. You will also need to provide Bare Metal service with the MAC address(es) of each node that it is provisioning; Bare Metal service in turn will pass this information to Networking service for DHCP and PXE boot configuration. An example of this is shown in the :ref:`enrollment` section. #. Install the networking-baremetal ML2 mechanism driver and L2 agent in the Networking service. #. Edit ``/etc/neutron/plugins/ml2/ml2_conf.ini`` and modify these: .. code-block:: ini [ml2] type_drivers = flat tenant_network_types = flat mechanism_drivers = openvswitch,baremetal [ml2_type_flat] flat_networks = physnet1 [securitygroup] firewall_driver = neutron.agent.linux.iptables_firewall.OVSHybridIptablesFirewallDriver enable_security_group = True [ovs] bridge_mappings = physnet1:br-eth2 # Replace eth2 with the interface on the neutron node which you # are using to connect to the bare metal server #. Restart the ``neutron-server`` service, to load the new configuration. #. Create and edit ``/etc/neutron/plugins/ml2/ironic_neutron_agent.ini`` and add the required configuration. For example: .. code-block:: ini [ironic] project_domain_name = Default project_name = service user_domain_name = Default password = password username = ironic auth_url = http://identity-server.example.com/identity auth_type = password region_name = RegionOne #. Make sure the ``ironic-neutron-agent`` service is started. #. If neutron-openvswitch-agent runs with ``ovs_neutron_plugin.ini`` as the input config-file, edit ``ovs_neutron_plugin.ini`` to configure the bridge mappings by adding the [ovs] section described in the previous step, and restart the neutron-openvswitch-agent. #. Add the integration bridge to Open vSwitch: .. code-block:: console $ ovs-vsctl add-br br-int #. Create the br-eth2 network bridge to handle communication between the OpenStack services (and the Bare Metal services) and the bare metal nodes using eth2. Replace eth2 with the interface on the network node which you are using to connect to the Bare Metal service: .. code-block:: console $ ovs-vsctl add-br br-eth2 $ ovs-vsctl add-port br-eth2 eth2 #. Restart the Open vSwitch agent: .. code-block:: console # service neutron-plugin-openvswitch-agent restart #. On restarting the Networking service Open vSwitch agent, the veth pair between the bridges br-int and br-eth2 is automatically created. Your Open vSwitch bridges should look something like this after following the above steps: .. code-block:: console $ ovs-vsctl show Bridge br-int fail_mode: secure Port "int-br-eth2" Interface "int-br-eth2" type: patch options: {peer="phy-br-eth2"} Port br-int Interface br-int type: internal Bridge "br-eth2" Port "phy-br-eth2" Interface "phy-br-eth2" type: patch options: {peer="int-br-eth2"} Port "eth2" Interface "eth2" Port "br-eth2" Interface "br-eth2" type: internal ovs_version: "2.3.0" #. Create the flat network on which you are going to launch the instances: .. code-block:: console $ openstack network create --project $TENANT_ID sharednet1 --share \ --provider-network-type flat --provider-physical-network physnet1 #. Create the subnet on the newly created network: .. code-block:: console $ openstack subnet create $SUBNET_NAME --network sharednet1 \ --subnet-range $NETWORK_CIDR --ip-version 4 --gateway $GATEWAY_IP \ --allocation-pool start=$START_IP,end=$END_IP --dhcp