Before you configure the OpenStack Networking (neutron) service, you must create a database, service credentials, and API endpoints.
To create the database, complete these steps:
Use the database access client to connect to the database
server as the root
user:
$ mysql -u root -p
Create the neutron
database:
MariaDB [(none)] CREATE DATABASE neutron;
Grant proper access to the neutron
database, replacing
NEUTRON_DBPASS
with a suitable password:
MariaDB [(none)]> GRANT ALL PRIVILEGES ON neutron.* TO 'neutron'@'localhost' \
IDENTIFIED BY 'NEUTRON_DBPASS';
MariaDB [(none)]> GRANT ALL PRIVILEGES ON neutron.* TO 'neutron'@'%' \
IDENTIFIED BY 'NEUTRON_DBPASS';
Exit the database access client.
Source the admin
credentials to gain access to admin-only CLI
commands:
$ . admin-openrc
To create the service credentials, complete these steps:
Create the neutron
user:
$ openstack user create --domain default --password-prompt neutron
User Password:
Repeat User Password:
+---------------------+----------------------------------+
| Field | Value |
+---------------------+----------------------------------+
| domain_id | default |
| enabled | True |
| id | fdb0f541e28141719b6a43c8944bf1fb |
| name | neutron |
| options | {} |
| password_expires_at | None |
+---------------------+----------------------------------+
Add the admin
role to the neutron
user:
$ openstack role add --project service --user neutron admin
Note
This command provides no output.
Create the neutron
service entity:
$ openstack service create --name neutron \
--description "OpenStack Networking" network
+-------------+----------------------------------+
| Field | Value |
+-------------+----------------------------------+
| description | OpenStack Networking |
| enabled | True |
| id | f71529314dab4a4d8eca427e701d209e |
| name | neutron |
| type | network |
+-------------+----------------------------------+
Create the Networking service API endpoints:
$ openstack endpoint create --region RegionOne \
network public http://controller:9696
+--------------+----------------------------------+
| Field | Value |
+--------------+----------------------------------+
| enabled | True |
| id | 85d80a6d02fc4b7683f611d7fc1493a3 |
| interface | public |
| region | RegionOne |
| region_id | RegionOne |
| service_id | f71529314dab4a4d8eca427e701d209e |
| service_name | neutron |
| service_type | network |
| url | http://controller:9696 |
+--------------+----------------------------------+
$ openstack endpoint create --region RegionOne \
network internal http://controller:9696
+--------------+----------------------------------+
| Field | Value |
+--------------+----------------------------------+
| enabled | True |
| id | 09753b537ac74422a68d2d791cf3714f |
| interface | internal |
| region | RegionOne |
| region_id | RegionOne |
| service_id | f71529314dab4a4d8eca427e701d209e |
| service_name | neutron |
| service_type | network |
| url | http://controller:9696 |
+--------------+----------------------------------+
$ openstack endpoint create --region RegionOne \
network admin http://controller:9696
+--------------+----------------------------------+
| Field | Value |
+--------------+----------------------------------+
| enabled | True |
| id | 1ee14289c9374dffb5db92a5c112fc4e |
| interface | admin |
| region | RegionOne |
| region_id | RegionOne |
| service_id | f71529314dab4a4d8eca427e701d209e |
| service_name | neutron |
| service_type | network |
| url | http://controller:9696 |
+--------------+----------------------------------+
You can deploy the Networking service using one of two architectures represented by options 1 and 2.
Option 1 deploys the simplest possible architecture that only supports
attaching instances to provider (external) networks. No self-service (private)
networks, routers, or floating IP addresses. Only the admin
or other
privileged user can manage provider networks.
Option 2 augments option 1 with layer-3 services that support attaching
instances to self-service networks. The demo
or other unprivileged
user can manage self-service networks including routers that provide
connectivity between self-service and provider networks. Additionally,
floating IP addresses provide connectivity to instances using self-service
networks from external networks such as the Internet.
Self-service networks typically use overlay networks. Overlay network protocols such as VXLAN include additional headers that increase overhead and decrease space available for the payload or user data. Without knowledge of the virtual network infrastructure, instances attempt to send packets using the default Ethernet maximum transmission unit (MTU) of 1500 bytes. The Networking service automatically provides the correct MTU value to instances via DHCP. However, some cloud images do not use DHCP or ignore the DHCP MTU option and require configuration using metadata or a script.
Note
Option 2 also supports attaching instances to provider networks.
Choose one of the following networking options to configure services specific to it. Afterwards, return here and proceed to Configure the metadata agent.
The metadata agent provides configuration information such as credentials to instances.
Edit the /etc/neutron/metadata_agent.ini
file and complete the following
actions:
In the [DEFAULT]
section, configure the metadata host and shared
secret:
[DEFAULT]
# ...
nova_metadata_host = controller
metadata_proxy_shared_secret = METADATA_SECRET
Replace METADATA_SECRET
with a suitable secret for the metadata proxy.
Edit the /etc/nova/nova.conf
file and perform the following actions:
In the [neutron]
section, configure access parameters, enable the
metadata proxy, and configure the secret:
[neutron]
# ...
url = http://controller:9696
auth_url = http://controller:35357
auth_type = password
project_domain_name = default
user_domain_name = default
region_name = RegionOne
project_name = service
username = neutron
password = NEUTRON_PASS
service_metadata_proxy = true
metadata_proxy_shared_secret = METADATA_SECRET
Replace NEUTRON_PASS
with the password you chose for the neutron
user in the Identity service.
Replace METADATA_SECRET
with the secret you chose for the metadata
proxy.
The Networking service initialization scripts expect a symbolic link
/etc/neutron/plugin.ini
pointing to the ML2 plug-in configuration
file, /etc/neutron/plugins/ml2/ml2_conf.ini
. If this symbolic
link does not exist, create it using the following command:
# ln -s /etc/neutron/plugins/ml2/ml2_conf.ini /etc/neutron/plugin.ini
Populate the database:
# su -s /bin/sh -c "neutron-db-manage --config-file /etc/neutron/neutron.conf \
--config-file /etc/neutron/plugins/ml2/ml2_conf.ini upgrade head" neutron
Note
Database population occurs later for Networking because the script requires complete server and plug-in configuration files.
Restart the Compute API service:
# systemctl restart openstack-nova-api.service
Start the Networking services and configure them to start when the system boots.
For both networking options:
# systemctl enable neutron-server.service \
neutron-linuxbridge-agent.service neutron-dhcp-agent.service \
neutron-metadata-agent.service
# systemctl start neutron-server.service \
neutron-linuxbridge-agent.service neutron-dhcp-agent.service \
neutron-metadata-agent.service
For networking option 2, also enable and start the layer-3 service:
# systemctl enable neutron-l3-agent.service
# systemctl start neutron-l3-agent.service
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