Devstack with Octavia Load Balancing ==================================== Starting with the OpenStack Pike release, Octavia is now a standalone service providing load balancing services for OpenStack. This guide will show you how to create a devstack with `Octavia API`_ enabled. .. _Octavia API: https://docs.openstack.org/api-ref/load-balancer/v2/index.html Phase 1: Create DevStack + 2 nova instances -------------------------------------------- First, set up a vm of your choice with at least 8 GB RAM and 16 GB disk space, make sure it is updated. Install git and any other developer tools you find useful. Install devstack :: git clone https://opendev.org/openstack/devstack cd devstack/tools sudo ./create-stack-user.sh cd ../.. sudo mv devstack /opt/stack sudo chown -R stack.stack /opt/stack/devstack This will clone the current devstack code locally, then setup the "stack" account that devstack services will run under. Finally, it will move devstack into its default location in /opt/stack/devstack. Edit your ``/opt/stack/devstack/local.conf`` to look like :: [[local|localrc]] enable_plugin octavia https://opendev.org/openstack/octavia # If you are enabling horizon, include the octavia dashboard # enable_plugin octavia-dashboard https://opendev.org/openstack/octavia-dashboard.git # If you are enabling barbican for TLS offload in Octavia, include it here. # enable_plugin barbican https://opendev.org/openstack/barbican # If you have python3 available: # USE_PYTHON3=True # ===== BEGIN localrc ===== DATABASE_PASSWORD=password ADMIN_PASSWORD=password SERVICE_PASSWORD=password SERVICE_TOKEN=password RABBIT_PASSWORD=password # Enable Logging LOGFILE=$DEST/logs/stack.sh.log VERBOSE=True LOG_COLOR=True # Pre-requisite ENABLED_SERVICES=rabbit,mysql,key # Horizon - enable for the OpenStack web GUI # ENABLED_SERVICES+=,horizon # Nova ENABLED_SERVICES+=,n-api,n-crt,n-cpu,n-cond,n-sch,n-api-meta,n-sproxy ENABLED_SERVICES+=,placement-api,placement-client # Glance ENABLED_SERVICES+=,g-api # Neutron ENABLED_SERVICES+=,q-svc,q-agt,q-dhcp,q-l3,q-meta,neutron ENABLED_SERVICES+=,octavia,o-cw,o-hk,o-hm,o-api # Cinder ENABLED_SERVICES+=,c-api,c-vol,c-sch # Tempest ENABLED_SERVICES+=,tempest # Barbican - Optionally used for TLS offload in Octavia # ENABLED_SERVICES+=,barbican # ===== END localrc ===== Run stack.sh and do some sanity checks :: sudo su - stack cd /opt/stack/devstack ./stack.sh . ./openrc openstack network list # should show public and private networks Create two nova instances that we can use as test http servers: :: #create nova instances on private network openstack server create --image $(openstack image list | awk '/ cirros-.*-x86_64-.* / {print $2}') --flavor 1 --nic net-id=$(openstack network list | awk '/ private / {print $2}') node1 openstack server create --image $(openstack image list | awk '/ cirros-.*-x86_64-.* / {print $2}') --flavor 1 --nic net-id=$(openstack network list | awk '/ private / {print $2}') node2 openstack server list # should show the nova instances just created #add secgroup rules to allow ssh etc.. openstack security group rule create default --protocol icmp openstack security group rule create default --protocol tcp --dst-port 22:22 openstack security group rule create default --protocol tcp --dst-port 80:80 Set up a simple web server on each of these instances. ssh into each instance (username 'cirros', password 'cubswin:)' or 'gocubsgo') and run :: MYIP=$(ifconfig eth0|grep 'inet addr'|awk -F: '{print $2}'| awk '{print $1}') while true; do echo -e "HTTP/1.0 200 OK\r\n\r\nWelcome to $MYIP" | sudo nc -l -p 80 ; done& Phase 2: Create your load balancer ---------------------------------- Make sure you have the 'openstack loadbalancer' commands: :: pip install python-octaviaclient Create your load balancer: :: openstack loadbalancer create --name lb1 --vip-subnet-id private-subnet openstack loadbalancer show lb1 # Wait for the provisioning_status to be ACTIVE. openstack loadbalancer listener create --protocol HTTP --protocol-port 80 --name listener1 lb1 openstack loadbalancer show lb1 # Wait for the provisioning_status to be ACTIVE. openstack loadbalancer pool create --lb-algorithm ROUND_ROBIN --listener listener1 --protocol HTTP --name pool1 openstack loadbalancer show lb1 # Wait for the provisioning_status to be ACTIVE. openstack loadbalancer healthmonitor create --delay 5 --timeout 2 --max-retries 1 --type HTTP pool1 openstack loadbalancer show lb1 # Wait for the provisioning_status to be ACTIVE. openstack loadbalancer member create --subnet-id private-subnet --address --protocol-port 80 pool1 openstack loadbalancer show lb1 # Wait for the provisioning_status to be ACTIVE. openstack loadbalancer member create --subnet-id private-subnet --address --protocol-port 80 pool1 Please note: The fields are the IP addresses of the nova servers created in Phase 1. Also note, using the API directly you can do all of the above commands in one API call. Phase 3: Test your load balancer -------------------------------- :: openstack loadbalancer show lb1 # Note the vip_address curl http:// curl http:// This should show the "Welcome to " message from each member server.