Configure Identity service for Networking

To configure the Identity service for use with Networking

  1. Create the get_id() function

    The get_id() function stores the ID of created objects, and removes the need to copy and paste object IDs in later steps:

    1. Add the following function to your .bashrc file:

      function get_id () {
      echo `"$@" | awk '/ id / { print $4 }'`
      }
      
    2. Source the .bashrc file:

      $ source .bashrc
      
  2. Create the Networking service entry

    Networking must be available in the Compute service catalog. Create the service:

    $ NEUTRON_SERVICE_ID=$(get_id openstack service create network \
      --name neutron --description 'OpenStack Networking Service')
    
  3. Create the Networking service endpoint entry

    The way that you create a Networking endpoint entry depends on whether you are using the SQL or the template catalog driver:

    • If you are using the SQL driver, run the following command with the specified region ($REGION), IP address of the Networking server ($IP), and service ID ($NEUTRON_SERVICE_ID, obtained in the previous step).

      $ openstack endpoint create $NEUTRON_SERVICE_ID --region $REGION \
        --publicurl 'http://$IP:9696/' --adminurl 'http://$IP:9696/' \
        --internalurl 'http://$IP:9696/'
      

      For example:

      $ openstack endpoint create $NEUTRON_SERVICE_ID --region myregion \
        --publicurl "http://10.211.55.17:9696/" \
        --adminurl "http://10.211.55.17:9696/" \
        --internalurl "http://10.211.55.17:9696/"
      
    • If you are using the template driver, specify the following parameters in your Compute catalog template file (default_catalog.templates), along with the region ($REGION) and IP address of the Networking server ($IP).

      catalog.$REGION.network.publicURL = http://$IP:9696
      catalog.$REGION.network.adminURL = http://$IP:9696
      catalog.$REGION.network.internalURL = http://$IP:9696
      catalog.$REGION.network.name = Network Service
      

      For example:

      catalog.$Region.network.publicURL = http://10.211.55.17:9696
      catalog.$Region.network.adminURL = http://10.211.55.17:9696
      catalog.$Region.network.internalURL = http://10.211.55.17:9696
      catalog.$Region.network.name = Network Service
      
  4. Create the Networking service user

    You must provide admin user credentials that Compute and some internal Networking components can use to access the Networking API. Create a special service project and a neutron user within this project, and assign an admin role to this role.

    1. Create the admin role:

      $ ADMIN_ROLE=$(get_id openstack role create admin)
      
    2. Create the neutron user:

      $ NEUTRON_USER=$(get_id openstack user create neutron \
        --password "$NEUTRON_PASSWORD" --email demo@example.com \
        --project service)
      
    3. Create the service project:

      $ SERVICE_TENANT=$(get_id openstack project create service \
        --description "Services project" --domain default)
      
    4. Establish the relationship among the project, user, and role:

      $ openstack role add $ADMIN_ROLE --user $NEUTRON_USER \
        --project $SERVICE_TENANT
      

For information about how to create service entries and users, see the Ocata Installation Tutorials and Guides for your distribution.

Compute

If you use Networking, do not run the Compute nova-network service (like you do in traditional Compute deployments). Instead, Compute delegates most network-related decisions to Networking.

Note

Uninstall nova-network and reboot any physical nodes that have been running nova-network before using them to run Networking. Inadvertently running the nova-network process while using Networking can cause problems, as can stale iptables rules pushed down by previously running nova-network.

Compute proxies project-facing API calls to manage security groups and floating IPs to Networking APIs. However, operator-facing tools such as nova-manage, are not proxied and should not be used.

Warning

When you configure networking, you must use this guide. Do not rely on Compute networking documentation or past experience with Compute. If a nova command or configuration option related to networking is not mentioned in this guide, the command is probably not supported for use with Networking. In particular, you cannot use CLI tools like nova-manage and nova to manage networks or IP addressing, including both fixed and floating IPs, with Networking.

To ensure that Compute works properly with Networking (rather than the legacy nova-network mechanism), you must adjust settings in the nova.conf configuration file.

Networking API and credential configuration

Each time you provision or de-provision a VM in Compute, nova-\* services communicate with Networking using the standard API. For this to happen, you must configure the following items in the nova.conf file (used by each nova-compute and nova-api instance).

nova.conf API and credential settings prior to Mitaka

Attribute name

Required

[DEFAULT] use_neutron

Modify from the default to True to indicate that Networking should be used rather than the traditional nova-network networking model.

[neutron] url

Update to the host name/IP and port of the neutron-server instance for this deployment.

[neutron] auth_strategy

Keep the default keystone value for all production deployments.

[neutron] admin_project_name

Update to the name of the service tenant created in the above section on Identity configuration.

[neutron] admin_username

Update to the name of the user created in the above section on Identity configuration.

[neutron] admin_password

Update to the password of the user created in the above section on Identity configuration.

[neutron] admin_auth_url

Update to the Identity server IP and port. This is the Identity (keystone) admin API server IP and port value, and not the Identity service API IP and port.

nova.conf API and credential settings in Newton

Attribute name

Required

[DEFAULT] use_neutron

Modify from the default to True to indicate that Networking should be used rather than the traditional nova-network networking model.

[neutron] url

Update to the host name/IP and port of the neutron-server instance for this deployment.

[neutron] auth_strategy

Keep the default keystone value for all production deployments.

[neutron] project_name

Update to the name of the service tenant created in the above section on Identity configuration.

[neutron] username

Update to the name of the user created in the above section on Identity configuration.

[neutron] password

Update to the password of the user created in the above section on Identity configuration.

[neutron] auth_url

Update to the Identity server IP and port. This is the Identity (keystone) admin API server IP and port value, and not the Identity service API IP and port.

Configure security groups

The Networking service provides security group functionality using a mechanism that is more flexible and powerful than the security group capabilities built into Compute. Therefore, if you use Networking, you should always disable built-in security groups and proxy all security group calls to the Networking API. If you do not, security policies will conflict by being simultaneously applied by both services.

To proxy security groups to Networking, use the following configuration values in the nova.conf file:

nova.conf security group settings

Item

Configuration

firewall_driver

Update to nova.virt.firewall.NoopFirewallDriver, so that nova-compute does not perform iptables-based filtering itself.

Configure metadata

The Compute service allows VMs to query metadata associated with a VM by making a web request to a special 169.254.169.254 address. Networking supports proxying those requests to nova-api, even when the requests are made from isolated networks, or from multiple networks that use overlapping IP addresses.

To enable proxying the requests, you must update the following fields in [neutron] section in the nova.conf.

nova.conf metadata settings

Item

Configuration

service_metadata_proxy

Update to true, otherwise nova-api will not properly respond to requests from the neutron-metadata-agent.

metadata_proxy_shared_secret

Update to a string “password” value. You must also configure the same value in the metadata_agent.ini file, to authenticate requests made for metadata.

The default value of an empty string in both files will allow metadata to function, but will not be secure if any non-trusted entities have access to the metadata APIs exposed by nova-api.

Note

As a precaution, even when using metadata_proxy_shared_secret, we recommend that you do not expose metadata using the same nova-api instances that are used for projects. Instead, you should run a dedicated set of nova-api instances for metadata that are available only on your management network. Whether a given nova-api instance exposes metadata APIs is determined by the value of enabled_apis in its nova.conf.

Example nova.conf (for nova-compute and nova-api)

Example values for the above settings, assuming a cloud controller node running Compute and Networking with an IP address of 192.168.1.2:

[DEFAULT]
use_neutron = True
firewall_driver=nova.virt.firewall.NoopFirewallDriver

[neutron]
url=http://192.168.1.2:9696
auth_strategy=keystone
admin_tenant_name=service
admin_username=neutron
admin_password=password
admin_auth_url=http://192.168.1.2:5000/v2.0
service_metadata_proxy=true
metadata_proxy_shared_secret=foo