Scenario - Open Virtual Network (OVN)¶
Overview¶
Operators can choose to utilize the Open Virtual Network (OVN) mechanism driver instead of Linux bridges or plain Open vSwitch for the Neutron ML2 plugin. This offers the possibility to deploy virtual networks and routers using OVN with Open vSwitch, which replaces the agent-based model used by the aforementioned architectures. This document outlines how to set it up in your environment.
Warning
The current implementation of OVN in OpenStack-Ansible is experimental and not production ready.
The following architectural assumptions have been made:
Each compute node will act as an OVN controller
Each compute node is eligible to serve as an OVN gateway node
Note
Physical VTEP integration is not supported.
Recommended reading¶
Since this is an extension of the basic Open vSwitch scenario, it is worth reading that scenario to get some background. It is also recommended to be familiar with OVN and networking-ovn projects and their configuration.
Prerequisites¶
Open vSwitch >= 2.10.0
A successful deployment of OVN requires a dedicated network interface be attached to the OVS provider bridge. This is not handled automatially and may require changes to the network interface configuration file.
OpenStack-Ansible user variables¶
Create a group var file for your network hosts
/etc/openstack_deploy/group_vars/network_hosts
. It has to include:
# Ensure the openvswitch kernel module is loaded
openstack_host_specific_kernel_modules:
- name: "openvswitch"
pattern: "CONFIG_OPENVSWITCH"
Copy the neutron environment overrides to
/etc/openstack_deploy/env.d/neutron.yml
to disable the creation of the
neutron agents container and implement the neutron_ovn_northd_container
hosts group containing all network nodes:
component_skel:
neutron_ovn_controller:
belongs_to:
- neutron_all
neutron_ovn_northd:
belongs_to:
- neutron_all
container_skel:
neutron_agents_container:
contains: {}
neutron_ovn_northd_container:
belongs_to:
- network_containers
contains:
- neutron_ovn_northd
Copy the nova environment overrides to
/etc/openstack_deploy/env.d/nova.yml
to implement the
neutron_ovn_controller
hosts group containing all compute nodes:
container_skel:
nova_compute_container:
belongs_to:
- compute_containers
- kvm-compute_containers
- lxd-compute_containers
- qemu-compute_containers
contains:
- neutron_ovn_controller
- nova_compute
properties:
is_metal: true
Specify provider network definitions in your
/etc/openstack_deploy/openstack_user_config.yml
that define
one or more Neutron provider bridges and related configuration:
Note
Bridges specified here will be created automatically. If
network_interface
is defined, the interface will be placed into
the bridge automatically. Only VLAN network types are supported at
this time.
- network:
container_bridge: "br-privatenet"
container_type: "veth"
type: "vlan"
range: "101:200,301:400"
net_name: "private"
network_interface: "bond2"
group_binds:
- neutron_ovn_controller
- network:
container_bridge: "br-publicnet"
container_type: "veth"
type: "vlan"
range: "203:203,467:500"
net_name: "public"
network_interface: "bond1"
group_binds:
- neutron_ovn_controller
Specify an overlay network definition in your
/etc/openstack_deploy/openstack_user_config.yml
that defines
overlay network-related configuration:
Note
The bridge name should correspond to a pre-created Linux bridge. Only GENEVE overlay network types are supported at this time.
- network:
container_bridge: "br-vxlan"
container_type: "veth"
container_interface: "eth10"
ip_from_q: "tunnel"
type: "geneve"
range: "1:1000"
net_name: "geneve"
group_binds:
- neutron_ovn_controller
Set the following user variables in your
/etc/openstack_deploy/user_variables.yml
:
neutron_plugin_type: ml2.ovn
neutron_plugin_base:
- neutron.services.ovn_l3.plugin.OVNL3RouterPlugin
neutron_ml2_drivers_type: "vlan,local,geneve"
The overrides are instructing Ansible to deploy the OVN mechanism driver and
associated OVN components. This is done by setting neutron_plugin_type
to ml2.ovn
.
The neutron_plugin_base
override instructions Neutron to use OVN for
routing functions rather than the standard L3 agent model.
The neutron_ml2_drivers_type
override provides support for all type
drivers supported by OVN.
If provider network overrides are needed on a global or per-host basis,
the following format can be used in user_variables.yml
or per-host
in openstack_user_config.yml
.
Note
These overrides are not normally required.
# When configuring Neutron to support geneve tenant networks and
# vlan provider networks the configuration may resemble the following:
neutron_provider_networks:
network_types: "geneve"
network_geneve_ranges: "1:1000"
network_vlan_ranges: "public"
network_mappings: "public:br-publicnet"
network_interface_mappings: "br-publicnet:bond1"
# When configuring Neutron to support only vlan tenant networks and
# vlan provider networks the configuration may resemble the following:
neutron_provider_networks:
network_types: "vlan"
network_vlan_ranges: "public:203:203,467:500"
network_mappings: "public:br-publicnet"
network_interface_mappings: "br-publicnet:bond1"
# When configuring Neutron to support multiple vlan provider networks
# the configuration may resemble the following:
neutron_provider_networks:
network_types: "vlan"
network_vlan_ranges: "public:203:203,467:500,private:101:200,301:400"
network_mappings: "public:br-publicnet,private:br-privatenet"
network_interface_mappings: "br-publicnet:bond1,br-privatenet:bond2"
(Optional) DVR or Distributed L3 routing¶
DVR will be used for floating IPs if the ovn / enable_distributed_floating_ip flag is configured to True in the neutron server configuration.
Create a group var file for neutron server
/etc/openstack_deploy/group_vars/neutron_server.yml
. It has to include:
# DVR/Distributed L3 routing support
neutron_neutron_conf_overrides:
ovn:
enable_distributed_floating_ip: True
Open Virtual Network (OVN) commands¶
The following commands can be used to provide useful information about the state of Open vSwitch networking and configurations.
The ovs-vsctl list open_vswitch
command provides information about the
open_vswitch
table in the local Open vSwitch database:
root@aio1:~# ovs-vsctl list open_vswitch
_uuid : 855c820b-c082-4d8f-9828-8cab01c6c9a0
bridges : [37d3bd82-d436-474e-89b7-705aea634d7d, a393b2f6-5c3d-4ccd-a2f9-e9817391612a]
cur_cfg : 14
datapath_types : [netdev, system]
db_version : "7.15.1"
external_ids : {hostname="aio1", ovn-bridge-mappings="vlan:br-provider", ovn-encap-ip="172.29.240.100", ovn-encap-type="geneve,vxlan", ovn-remote="tcp:172.29.236.100:6642", rundir="/var/run/openvswitch", system-id="11af26c6-9ec1-4cf7-bf41-2af45bd59b03"}
iface_types : [geneve, gre, internal, lisp, patch, stt, system, tap, vxlan]
manager_options : []
next_cfg : 14
other_config : {}
ovs_version : "2.9.0"
ssl : []
statistics : {}
system_type : ubuntu
system_version : "16.04"
The ovn-sbctl show
command provides information related to southbound
connections. If used outside the ovn_northd container, specify the
connection details:
root@aio1-neutron-ovn-northd-container-57a6f1a9:~# ovn-sbctl show
Chassis "11af26c6-9ec1-4cf7-bf41-2af45bd59b03"
hostname: "aio1"
Encap vxlan
ip: "172.29.240.100"
options: {csum="true"}
Encap geneve
ip: "172.29.240.100"
options: {csum="true"}
root@aio1:~# ovn-sbctl --db=tcp:172.29.236.100:6642 show
Chassis "11af26c6-9ec1-4cf7-bf41-2af45bd59b03"
hostname: "aio1"
Encap vxlan
ip: "172.29.240.100"
options: {csum="true"}
Encap geneve
ip: "172.29.240.100"
options: {csum="true"}
The ovn-nbctl show
command provides information about networks known
to OVN and demonstrates connectivity between the northbound database
and neutron-server.
root@aio1-neutron-ovn-northd-container-57a6f1a9:~# ovn-nbctl show
switch 5e77f29e-5dd3-4875-984f-94bd30a12dc3 (neutron-87ec5a05-9abe-4c93-89bd-c6d40320db87) (aka testnet)
port 65785045-69ec-49e7-82e3-b9989f718a9c
type: localport
addresses: ["fa:16:3e:68:a3:c8"]
The ovn-nbctl list Address_Set
command provides information related to
security groups. If used outside the ovn_northd container, specify the
connection details:
root@aio1-neutron-ovn-northd-container-57a6f1a9:~# ovn-nbctl list Address_Set
_uuid : 575b3015-f83f-4bd6-a698-3fe67e43bec6
addresses : []
external_ids : {"neutron:security_group_id"="199997c1-6f06-4765-89af-6fd064365c6a"}
name : "as_ip4_199997c1_6f06_4765_89af_6fd064365c6a"
_uuid : b6e211af-e52e-4c59-93ce-adf75ec14f46
addresses : []
external_ids : {"neutron:security_group_id"="199997c1-6f06-4765-89af-6fd064365c6a"}
name : "as_ip6_199997c1_6f06_4765_89af_6fd064365c6a"
root@aio1:~# ovn-nbctl --db=tcp:172.29.236.100:6641 list Address_Set
_uuid : 575b3015-f83f-4bd6-a698-3fe67e43bec6
addresses : []
external_ids : {"neutron:security_group_id"="199997c1-6f06-4765-89af-6fd064365c6a"}
name : "as_ip4_199997c1_6f06_4765_89af_6fd064365c6a"
_uuid : b6e211af-e52e-4c59-93ce-adf75ec14f46
addresses : []
external_ids : {"neutron:security_group_id"="199997c1-6f06-4765-89af-6fd064365c6a"}
name : "as_ip6_199997c1_6f06_4765_89af_6fd064365c6a"
Additional commands can be found in upstream OVN documentation.
Notes¶
The ovn-controller
service on compute nodes will check in as an agent
and can be observed using the openstack network agent list
command:
root@aio1-utility-container-35bebd2a:~# openstack network agent list
+--------------------------------------+------------------------------+------+-------------------+-------+-------+----------------+
| ID | Agent Type | Host | Availability Zone | Alive | State | Binary |
+--------------------------------------+------------------------------+------+-------------------+-------+-------+----------------+
| 4db288a6-8f8a-4153-b4b7-7eaf44f9e881 | OVN Controller Gateway agent | aio1 | n/a | :-) | UP | ovn-controller |
+--------------------------------------+------------------------------+------+-------------------+-------+-------+----------------+
The HAproxy implementation in use may not properly handle active/backup failover for ovsdb-server with OVN. Work may be done to implement pacemaker/corosync or wait for upstream active/active support.