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Load Balancer as a Service (LBaaS)
The Networking service offers a load balancer feature called "LBaaS
v2" through the neutron-lbaas
service plug-in.
LBaaS v2 adds the concept of listeners to the LBaaS v1 load balancers. LBaaS v2 allows you to configure multiple listener ports on a single load balancer IP address.
There are two reference implementations of LBaaS v2. The one is an agent based implementation with HAProxy. The agents handle the HAProxy configuration and manage the HAProxy daemon. Another LBaaS v2 implementation, Octavia, has a separate API and separate worker processes that build load balancers within virtual machines on hypervisors that are managed by the Compute service. You do not need an agent for Octavia.
Warning
Currently, no migration path exists between v1 and v2 load balancers. If you choose to switch from v1 to v2, you must recreate all load balancers, pools, and health monitors.
LBaaS v2 Concepts
LBaaS v2 has several new concepts to understand:
- Load balancer
-
The load balancer occupies a neutron network port and has an IP address assigned from a subnet.
- Listener
-
Load balancers can listen for requests on multiple ports. Each one of those ports is specified by a listener.
- Pool
-
A pool holds a list of members that serve content through the load balancer.
- Member
-
Members are servers that serve traffic behind a load balancer. Each member is specified by the IP address and port that it uses to serve traffic.
- Health monitor
-
Members may go offline from time to time and health monitors divert traffic away from members that are not responding properly. Health monitors are associated with pools.
LBaaS v2 has multiple implementations via different service plug-ins. The two most common implementations use either an agent or the Octavia services. Both implementations use the LBaaS v2 API.
Configurations
Configuring LBaaS v2 with an agent
Add the LBaaS v2 service plug-in to the
service_plugins
configuration directive in/etc/neutron/neutron.conf
. The plug-in list is comma-separated:service_plugins = [existing service plugins],neutron_lbaas.services.loadbalancer.plugin.LoadBalancerPluginv2
Add the LBaaS v2 service provider to the
service_provider
configuration directive within the[service_providers]
section in/etc/neutron/neutron_lbaas.conf
:service_provider = LOADBALANCERV2:Haproxy:neutron_lbaas.drivers.haproxy.plugin_driver.HaproxyOnHostPluginDriver:default
If you have existing service providers for other networking service plug-ins, such as VPNaaS or FWaaS, add the
service_provider
line shown above in the[service_providers]
section as a separate line. These configuration directives are repeatable and are not comma-separated.Select the driver that manages virtual interfaces in
/etc/neutron/lbaas_agent.ini
:[DEFAULT] device_driver = neutron_lbaas.drivers.haproxy.namespace_driver.HaproxyNSDriver interface_driver = INTERFACE_DRIVER [haproxy] user_group = haproxy
Replace
INTERFACE_DRIVER
with the interface driver that the layer-2 agent in your environment uses. For example,openvswitch
for Open vSwitch orlinuxbridge
for Linux bridge.Run the
neutron-lbaas
database migration:neutron-db-manage --subproject neutron-lbaas upgrade head
If you have deployed LBaaS v1, stop the LBaaS v1 agent now. The v1 and v2 agents cannot run simultaneously.
Start the LBaaS v2 agent:
neutron-lbaasv2-agent \ --config-file /etc/neutron/neutron.conf \ --config-file /etc/neutron/lbaas_agent.ini
Restart the Network service to activate the new configuration. You are now ready to create load balancers with the LBaaS v2 agent.
Configuring LBaaS v2 with Octavia
Octavia provides additional capabilities for load balancers, including using a compute driver to build instances that operate as load balancers. The Hands on Lab - Install and Configure OpenStack Octavia session at the OpenStack Summit in Tokyo provides an overview of Octavia.
The DevStack documentation offers a simple method to deploy Octavia and test the service with redundant load balancer instances. If you already have Octavia installed and configured within your environment, you can configure the Network service to use Octavia:
Add the LBaaS v2 service plug-in to the
service_plugins
configuration directive in/etc/neutron/neutron.conf
. The plug-in list is comma-separated:service_plugins = [existing service plugins],neutron_lbaas.services.loadbalancer.plugin.LoadBalancerPluginv2
Add the Octavia service provider to the
service_provider
configuration directive within the[service_providers]
section in/etc/neutron/neutron_lbaas.conf
:service_provider = LOADBALANCERV2:Octavia:neutron_lbaas.drivers.octavia.driver.OctaviaDriver:default
Ensure that the LBaaS v1 and v2 service providers are removed from the
[service_providers]
section. They are not used with Octavia. Verify that all LBaaS agents are stopped.Restart the Network service to activate the new configuration. You are now ready to create and manage load balancers with Octavia.
Add LBaaS panels to Dashboard
The Dashboard panels for managing LBaaS v2 are available starting with the Mitaka release.
Clone the neutron-lbaas-dashboard repository and check out the release branch that matches the installed version of Dashboard:
$ git clone https://git.openstack.org/openstack/neutron-lbaas-dashboard $ cd neutron-lbaas-dashboard $ git checkout OPENSTACK_RELEASE
Install the Dashboard panel plug-in:
$ python setup.py install
Copy the
_1481_project_ng_loadbalancersv2_panel.py
file from theneutron-lbaas-dashboard/enabled
directory into the Dashboardopenstack_dashboard/local/enabled
directory.This step ensures that Dashboard can find the plug-in when it enumerates all of its available panels.
Enable the plug-in in Dashboard by editing the
local_settings.py
file and settingenable_lb
toTrue
in theOPENSTACK_NEUTRON_NETWORK
dictionary.If Dashboard is configured to compress static files for better performance (usually set through
COMPRESS_OFFLINE
inlocal_settings.py
), optimize the static files again:$ ./manage.py collectstatic $ ./manage.py compress
Restart Apache to activate the new panel:
$ sudo service apache2 restart
To find the panel, click on Project
in Dashboard, then click the Network
drop-down menu
and select Load Balancers
.
LBaaS v2 operations
The same neutron commands are used for LBaaS v2 with an agent or with Octavia.
Building an LBaaS v2 load balancer
Start by creating a load balancer on a network. In this example, the
private
network is an isolated network with two web server instances:$ neutron lbaas-loadbalancer-create --name test-lb private-subnet
You can view the load balancer status and IP address with the
neutron lbaas-loadbalancer-show
command:$ neutron lbaas-loadbalancer-show test-lb +---------------------+------------------------------------------------+ | Field | Value | +---------------------+------------------------------------------------+ | admin_state_up | True | | description | | | id | 7780f9dd-e5dd-43a9-af81-0d2d1bd9c386 | | listeners | {"id": "23442d6a-4d82-40ee-8d08-243750dbc191"} | | | {"id": "7e0d084d-6d67-47e6-9f77-0115e6cf9ba8"} | | name | test-lb | | operating_status | ONLINE | | provider | octavia | | provisioning_status | ACTIVE | | tenant_id | fbfce4cb346c4f9097a977c54904cafd | | vip_address | 192.0.2.22 | | vip_port_id | 9f8f8a75-a731-4a34-b622-864907e1d556 | | vip_subnet_id | f1e7827d-1bfe-40b6-b8f0-2d9fd946f59b | +---------------------+------------------------------------------------+
Update the security group to allow traffic to reach the new load balancer. Create a new security group along with ingress rules to allow traffic into the new load balancer. The neutron port for the load balancer is shown as
vip_port_id
above.Create a security group and rules to allow TCP port 80, TCP port 443, and all ICMP traffic:
$ neutron security-group-create lbaas $ neutron security-group-rule-create \ --direction ingress \ --protocol tcp \ --port-range-min 80 \ --port-range-max 80 \ --remote-ip-prefix 0.0.0.0/0 \ lbaas $ neutron security-group-rule-create \ --direction ingress \ --protocol tcp \ --port-range-min 443 \ --port-range-max 443 \ --remote-ip-prefix 0.0.0.0/0 \ lbaas $ neutron security-group-rule-create \ --direction ingress \ --protocol icmp \ lbaas
Apply the security group to the load balancer's network port using
vip_port_id
from theneutron lbaas-loadbalancer-show
command:$ neutron port-update \ --security-group lbaas \ 9f8f8a75-a731-4a34-b622-864907e1d556
Adding an HTTP listener
With the load balancer online, you can add a listener for plaintext HTTP traffic on port 80:
$ neutron lbaas-listener-create \ --name test-lb-http \ --loadbalancer test-lb \ --protocol HTTP \ --protocol-port 80
This load balancer is active and ready to serve traffic on
192.0.2.22
.Verify that the load balancer is responding to pings before moving further:
$ ping -c 4 192.0.2.22 PING 192.0.2.22 (192.0.2.22) 56(84) bytes of data. 64 bytes from 192.0.2.22: icmp_seq=1 ttl=62 time=0.410 ms 64 bytes from 192.0.2.22: icmp_seq=2 ttl=62 time=0.407 ms 64 bytes from 192.0.2.22: icmp_seq=3 ttl=62 time=0.396 ms 64 bytes from 192.0.2.22: icmp_seq=4 ttl=62 time=0.397 ms --- 192.0.2.22 ping statistics --- 4 packets transmitted, 4 received, 0% packet loss, time 2997ms rtt min/avg/max/mdev = 0.396/0.402/0.410/0.020 ms
You can begin building a pool and adding members to the pool to serve HTTP content on port 80. For this example, the web servers are
192.0.2.16
and192.0.2.17
:$ neutron lbaas-pool-create \ --name test-lb-pool-http \ --lb-algorithm ROUND_ROBIN \ --listener test-lb-http \ --protocol HTTP $ neutron lbaas-member-create \ --name test-lb-http-member-1 \ --subnet private-subnet \ --address 192.0.2.16 \ --protocol-port 80 \ test-lb-pool-http $ neutron lbaas-member-create \ --name test-lb-http-member-2 \ --subnet private-subnet \ --address 192.0.2.17 \ --protocol-port 80 \ test-lb-pool-http
You can use
curl
to verify connectivity through the load balancers to your web servers:$ curl 192.0.2.22 web2 $ curl 192.0.2.22 web1 $ curl 192.0.2.22 web2 $ curl 192.0.2.22 web1
In this example, the load balancer uses the round robin algorithm and the traffic alternates between the web servers on the backend.
You can add a health monitor so that unresponsive servers are removed from the pool:
$ neutron lbaas-healthmonitor-create \ --name test-lb-http-monitor \ --delay 5 \ --max-retries 2 \ --timeout 10 \ --type HTTP \ --pool test-lb-pool-http
In this example, the health monitor removes the server from the pool if it fails a health check at two five-second intervals. When the server recovers and begins responding to health checks again, it is added to the pool once again.
Adding an HTTPS listener
You can add another listener on port 443 for HTTPS traffic. LBaaS v2 offers SSL/TLS termination at the load balancer, but this example takes a simpler approach and allows encrypted connections to terminate at each member server.
Start by creating a listener, attaching a pool, and then adding members:
$ neutron lbaas-listener-create \ --name test-lb-https \ --loadbalancer test-lb \ --protocol HTTPS \ --protocol-port 443 $ neutron lbaas-pool-create \ --name test-lb-pool-https \ --lb-algorithm LEAST_CONNECTIONS \ --listener test-lb-https \ --protocol HTTPS $ neutron lbaas-member-create \ --name test-lb-https-member-1 \ --subnet private-subnet \ --address 192.0.2.16 \ --protocol-port 443 \ test-lb-pool-https $ neutron lbaas-member-create \ --name test-lb-https-member-2 \ --subnet private-subnet \ --address 192.0.2.17 \ --protocol-port 443 \ test-lb-pool-https
You can also add a health monitor for the HTTPS pool:
$ neutron lbaas-healthmonitor-create \ --name test-lb-https-monitor \ --delay 5 \ --max-retries 2 \ --timeout 10 \ --type HTTPS \ --pool test-lb-pool-https
The load balancer now handles traffic on ports 80 and 443.
Associating a floating IP address
Load balancers that are deployed on a public or provider network that are accessible to external clients do not need a floating IP address assigned. External clients can directly access the virtual IP address (VIP) of those load balancers.
However, load balancers deployed onto private or isolated networks need a floating IP address assigned if they must be accessible to external clients. To complete this step, you must have a router between the private and public networks and an available floating IP address.
You can use the neutron lbaas-loadbalancer-show
command from the
beginning of this section to locate the vip_port_id
. The
vip_port_id
is the ID of the network port that is assigned
to the load balancer. You can associate a free floating IP address to
the load balancer using neutron floatingip-associate
:
$ neutron floatingip-associate FLOATINGIP_ID LOAD_BALANCER_PORT_ID
Setting quotas for LBaaS v2
Quotas are available for limiting the number of load balancers and load balancer pools. By default, both quotas are set to 10.
You can adjust quotas using the neutron quota-update
command:
$ neutron quota-update --tenant-id TENANT_UUID --loadbalancer 25
$ neutron quota-update --tenant-id TENANT_UUID --pool 50
A setting of -1
disables the quota for a tenant.
Retrieving load balancer statistics
The LBaaS v2 agent collects four types of statistics for each load
balancer every six seconds. Users can query these statistics with the
neutron lbaas-loadbalancer-stats
command:
$ neutron lbaas-loadbalancer-stats test-lb
+--------------------+----------+
| Field | Value |
+--------------------+----------+
| active_connections | 0 |
| bytes_in | 40264557 |
| bytes_out | 71701666 |
| total_connections | 384601 |
+--------------------+----------+
The active_connections
count is the total number of
connections that were active at the time the agent polled the load
balancer. The other three statistics are cumulative since the load
balancer was last started. For example, if the load balancer restarts
due to a system error or a configuration change, these statistics will
be reset.