Install and Setup Ansible on Ubuntu

How to Deploy Filebeat using Ansible

In this tutorial, you will learn how to deploy Filebeat using Ansible. Ansible is an open-source automation tool used for configuration management, application deployment, and

Deploy Multi-Node OpenStack using Kolla-Ansible

Deploy Multinode OpenStack using Kolla-Ansible

In this guide, you will to learn how to deploy Multinode OpenStack using Kolla-Ansible. We will be runing our OpenStack on Ubuntu 22.04 servers.

Kolla provides Docker containers and Ansible playbooks to meet Kolla’s mission. Kolla’s mission is to provide production-ready containers and deployment tools for operating OpenStack clouds. It allows the operators with minimal experience to deploy Multinode OpenStack quickly and as experience grows modify the OpenStack configuration to suit the operator’s exact requirements.

Deploying Multi-node OpenStack using Kolla-Ansible

Deployment Architecture

In this tutorial, we will be deploying a three-node Openstack with separate controller, storage and compute nodes. Each node will play a specific role as follows;

Controller Node:

The controller node is the central point of control and coordination in the OpenStack environment. It hosts various services responsible for managing and controlling other components. Some of the key services running on the controller node include:

  • Identity Service (Keystone): Responsible for authentication and authorization of users and services within OpenStack.
  • Image Service (Glance): Stores and manages virtual machine images used to create instances (VMs).
  • Dashboard Service (Horizon): Provides a web-based graphical user interface for managing and monitoring the cloud resources.
  • Networking Service (Neutron): Handles the networking aspects, including the creation and management of virtual networks, routers, and floating IPs.
  • Compute Service (Nova API): Handles user requests to create, start, stop, and manage instances (VMs).
  • Orchestration Service (Heat): Allows users to define and manage cloud applications using templates (e.g. YAML files) for automatic deployment.
  • Placement Service (Placement API): Tracks and manages resource allocations on the compute nodes.

Storage Node:

The storage node can configured to provide;

  • Cinder Volume Service:
    • Block Storage: Primary role is to host and manage Cinder volumes, offering block-level storage/volumes to Nova virtual machines, Ironic bare metal hosts, containers etc.
    • The default OpenStack Block Storage service implementation is an iSCSI solution that uses Logical Volume Manager (LVM) for Linux.
  • Glance Image Service:
    • Glance Service: Hosts and serves images to compute nodes, facilitating instance launches.
  • Swift Object Storage Service:
    • Object Storage: Can be configured to run the Swift service, providing scalable and redundant object storage.

In this tutorial, we will just be using our storage node to provide shared storage via NFS shares for glance images and cinder volume for block storage.

Thus, follow the guides below on how to setup NFS shares on Linux;

How to install and setup NFS server shares on Linux

On Storage node;

showmount -e
Export list for storage01:
/mnt/glance *

Compute Node:

The compute node is where the instances (VMs) are actually deployed and run. It is responsible for hosting the Nova Compute service, which interacts with the underlying hypervisor (e.g., KVM, VMware, Hyper-V) to manage the lifecycle of instances. The compute node handles instance creation, termination, and resource management, including CPU, memory, and network resources. Instances can be migrated between compute nodes for load balancing or maintenance purposes.

Please note that this is just one of the many ways of deploying OpenStack. You can plan your own architecture to meet your requirements!

System Requirements

Below are the minimum requirements we have for our OpenStack nodes:

  • 2 (or more) network interfaces.
  • At least 8gb main memory
  • At least 40gb disk space

Below are our deployment system specifics;

Node/HostnameManagement/Floating IPDISKRAMCPU
controller01
Also acts as Kolla-ansible deployment node
Mgt: 192.168.200.100/24
Floating: 10.100.0.100/24
100G8G2 cores
compute01Mgt: 192.168.200.120/24
Floating: 10.100.0.110/24
100G8G2 cores
strorage01 (provides NFS share for image storage and cinder block storage)192.168.200.110/24250G8G2 cores

You can provide as much resources since the more resources you have the better the performance of the stack.

Network Configurations on the Nodes

Below are the network configurations on the nodes;

Controller Node;

cat /etc/netplan/00-installer-config.yaml
network:
  renderer: networkd
  ethernets:
    enp1s0:
      dhcp4: false
    enp2s0:
      dhcp4: false
    vethint: {}
    vethext: {}
  bridges:
    br0:
      interfaces: [enp1s0]
      dhcp4: false
      addresses: [192.168.200.200/24]
      routes:
        - to: 0.0.0.0/0
          via: 192.168.200.1
      nameservers:
        addresses:
          - 8.8.8.8
    br-ex:
      interfaces: [ enp2s0, vethint ]
      dhcp4: false
      addresses: [10.100.0.100/24]
  version: 2

As you can see, we have also created virtual ethernets (veth interfaces) whose configuration is shown below. Veth pairs are commonly used to connect network namespaces, which are isolated network environments within a Linux system.

cat /etc/systemd/network/10-veth.netdev
[NetDev]
Name=vethint
Kind=veth
[Peer]
Name=vethext

The devices are connected to each other, and are also independent of the bridged interface, br-ex.

  • The [NetDev] section defines the first veth device, vethint. The Kind parameter specifies that this is a veth device.
  • The [Peer] section defines the second veth device, vethext. This device is automatically paired with the vethint device.

So, once you create the .netdev systemd configuration, restart the systemd-networkd service.

systemctl restart systemd-networkd

When this configuration file is loaded by systemd-networkd, it will create the two veth devices and connect them together. Any traffic sent to one device will be received by the other device. This allows network traffic to be passed between the two network namespaces that the veth devices are attached to.

ip a
1: lo:  mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000
    link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
    inet 127.0.0.1/8 scope host lo
       valid_lft forever preferred_lft forever
    inet6 ::1/128 scope host 
       valid_lft forever preferred_lft forever
2: enp1s0:  mtu 1500 qdisc fq_codel master br0 state UP group default qlen 1000
    link/ether 52:54:00:82:68:e4 brd ff:ff:ff:ff:ff:ff
3: enp7s0:  mtu 1500 qdisc fq_codel master br-ex state UP group default qlen 1000
    link/ether 52:54:00:54:81:bc brd ff:ff:ff:ff:ff:ff
4: br-ex:  mtu 1500 qdisc noqueue state UP group default qlen 1000
    link/ether 46:98:06:c2:e7:21 brd ff:ff:ff:ff:ff:ff
    inet 10.100.0.100/24 brd 10.100.0.255 scope global br-ex
       valid_lft forever preferred_lft forever
    inet6 fe80::4498:6ff:fec2:e721/64 scope link 
       valid_lft forever preferred_lft forever
5: br0:  mtu 1500 qdisc noqueue state UP group default qlen 1000
    link/ether aa:1f:79:9b:18:8b brd ff:ff:ff:ff:ff:ff
    inet 192.168.200.200/24 brd 192.168.200.255 scope global br0
       valid_lft forever preferred_lft forever
    inet6 fe80::a81f:79ff:fe9b:188b/64 scope link 
       valid_lft forever preferred_lft forever
6: vethext@vethint:  mtu 1500 qdisc noqueue master ovs-system state UP group default qlen 1000
    link/ether 46:1d:4f:ba:dd:7f brd ff:ff:ff:ff:ff:ff
    inet6 fe80::441d:4fff:feba:dd7f/64 scope link 
       valid_lft forever preferred_lft forever
7: vethint@vethext:  mtu 1500 qdisc noqueue master br-ex state UP group default qlen 1000
    link/ether d2:bd:a0:d3:2d:21 brd ff:ff:ff:ff:ff:ff

Compute Node

cat /etc/netplan/00-installer-config.yaml
network:
  renderer: networkd
  ethernets:
    enp1s0:
      dhcp4: false
      addresses: [192.168.200.202/24]
      routes:
        - to: 0.0.0.0/0
          via: 192.168.200.1
      nameservers:
        addresses:
          - 8.8.8.8
    enp2s0:
      dhcp4: false
      addresses: [10.100.0.110/24]
  version: 2 
ip a
1: lo:  mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000
    link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
    inet 127.0.0.1/8 scope host lo
       valid_lft forever preferred_lft forever
    inet6 ::1/128 scope host 
       valid_lft forever preferred_lft forever
2: enp1s0:  mtu 1500 qdisc fq_codel state UP group default qlen 1000
    link/ether 52:54:00:3a:88:51 brd ff:ff:ff:ff:ff:ff
    inet 192.168.200.202/24 brd 192.168.200.255 scope global enp1s0
       valid_lft forever preferred_lft forever
    inet6 fe80::5054:ff:fe3a:8851/64 scope link 
       valid_lft forever preferred_lft forever
3: enp2s0:  mtu 1500 qdisc fq_codel state UP group default qlen 1000
    link/ether 52:54:00:ea:cc:5d brd ff:ff:ff:ff:ff:ff
    inet 10.100.0.110/24 brd 10.100.0.255 scope global enp2s0
       valid_lft forever preferred_lft forever
    inet6 fe80::5054:ff:feea:cc5d/64 scope link 
       valid_lft forever preferred_lft forever

Storage Node

cat /etc/netplan/00-installer-config.yaml
network:
  ethernets:
    enp1s0:
      dhcp4: false
      addresses:
        - 192.168.200.201/24
      routes:
        - to: default
          via: 192.168.200.1
      nameservers:
        addresses:
          - 8.8.8.8
    enp10s0:
      dhcp4: false
  version: 2
ip a
1: lo:  mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000
    link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
    inet 127.0.0.1/8 scope host lo
       valid_lft forever preferred_lft forever
    inet6 ::1/128 scope host 
       valid_lft forever preferred_lft forever
2: enp1s0:  mtu 1500 qdisc fq_codel state UP group default qlen 1000
    link/ether 52:54:00:78:91:f2 brd ff:ff:ff:ff:ff:ff
    inet 192.168.200.201/24 brd 192.168.200.255 scope global enp1s0
       valid_lft forever preferred_lft forever
    inet6 fe80::5054:ff:fe78:91f2/64 scope link 
       valid_lft forever preferred_lft forever
4: enp10s0:  mtu 1500 qdisc fq_codel state UP group default qlen 1000
    link/ether 52:54:00:e2:9b:b0 brd ff:ff:ff:ff:ff:ff
    inet6 fe80::5054:ff:fee2:9bb0/64 scope link 
       valid_lft forever preferred_lft forever

You can also update your hosts file with respective DNS entries for your nodes on the controller node or the node where you will run Ansible-kolla. DNS entries in other nodes will be taken care by Ansible.

vim /etc/hosts

127.0.0.1 localhost
192.168.200.200 controller01
192.168.200.201 compute01
192.168.200.202 storage01

NOTE: We are running the installation as non root user with sudo privileges.

Install Required Packages on Deployment Node

Before you can proceed, there are a number of required packages that needs to be installed on the node that will host Kolla-ansible. We are using controller01 node as the Kolla-Ansible node.

Update and upgrade your system packages

sudo apt update
sudo apt upgrade

Reboot, if it is necessary;

[[ -f /var/run/reboot-required ]] && systemctl reboot -i

Install the required packages;

sudo apt install python3-dev python3-venv libffi-dev gcc libssl-dev git

Create Kolla-Ansible Deployment User Account

We already have Kolla-ansible deployment user account (with passwordless sudo) created on all the nodes. Sample sudoers file entry for the user;

sudo cat /etc/sudoers.d/kifarunix
kifarunix ALL=NOPASSWD: ALL

You also need to generate passwordless SSH keys to be used for logging into the compute and storage nodes from the controller node.

Generate SSH keys on the controller node or the node that runs Kolla-ansible.

Ensure you are generating the keys as the non-root sudoed user used for deployment;

kifarunix@controller01:~$ whoami 
kifarunix
ssh-keygen

Generating public/private rsa key pair.
Enter file in which to save the key (/home/kifarunix/.ssh/id_rsa): ENTER
Enter passphrase (empty for no passphrase): ENTER
Enter same passphrase again: ENTER
Your identification has been saved in /home/kifarunix/.ssh/id_rsa
Your public key has been saved in /home/kifarunix/.ssh/id_rsa.pub
The key fingerprint is:
SHA256:q+M37Axp1BJJV5cKa4HyS16vTUhE94N9T2A7R9uDdMg kifarunix@controller01
The key's randomart image is:
+---[RSA 3072]----+
|      .oo.o oo+..|
|    ...o+. =oEo+o|
|     oo. +..+.+o+|
|      oo= .  o =.|
|     oo=So      .|
|     .oo..o      |
|      +..+       |
|     ..+= .      |
|     .o+o.       |
+----[SHA256]-----+

Next, copy the keys to the other nodes;

for i in compute01 storage01; do ssh-copy-id kifarunix@$i; done

Create a Virtual Environment for Deploying Kolla-ansible

To avoid conflict between system packages and Kolla-ansible packages, it is recommended that Kolla-ansible be installed in a virtual environment.

You can create a virtual environment on the controller/deployment node by executing the command below. Be sure to replace the path to your virtual environment.

mkdir ~/kolla-ansible
python3 -m venv ~/kolla-ansible

Next, activate your virtual environment;

source ~/kolla-ansible/bin/activate

Once you activate the Kolla-ansible virtual environment, your shell prompt should change. See my shell prompt;

(kolla-ansible) kifarunix@controller01:~$

Upgrade pip;

pip install -U pip

Install Ansible on Ubuntu 22.04

Install Ansible from the virtual environment. If you ever log out of the virtual environment, you can always source the path to activate it;

source $HOME/kolla-ansible/bin/activate

Next, install Ansible. Kolla requires at least Ansible 6 up to 7, as of this writing.

pip install 'ansible>=6,<8'

Create an ansible configuration file on your home directory with the following tunables;

vim $HOME/ansible.cfg
[defaults]
host_key_checking=False
pipelining=True
forks=100

Save and exit the file.

Install Kolla-ansible on Ubuntu 22.04

Install Kolla-ansible on Ubuntu 22.04 using pip from the virtual environment above;

source $HOME/kolla-ansible/bin/activate

The command below installs the current stable release Kolla-ansible as of this writing.

pip install git+https://opendev.org/openstack/kolla-ansible@stable/2023.1

Configure Kolla-ansible for Multinode OpenStack Deployment

Prepare Kolla Ansible Configuration Files

Next, create Kolla configuration directory;

sudo mkdir /etc/kolla

Update the ownership of the Kolla config directory to the user with which you activated Koll-ansible deployment virtual environment as.

sudo chown $USER:$USER /etc/kolla

Copy the main Kolla configuration file, globals.yml and the OpenStack services passwords file, passwords.yml into the Kolla configuration directory above from the virtual environment.

cp $HOME/kolla-ansible/share/kolla-ansible/etc_examples/kolla/* /etc/kolla/

Confirm;

ls /etc/kolla
globals.yml  passwords.yml

Define Kolla-Ansible Global Deployment Options

Open the globals.yml configuration file and define the Multinode Kolla global deployment options;

vim /etc/kolla/globals.yml

Below are the basic options that we enabled for our AIO OpenStack deployment.

grep -vE '^$|^#' /etc/kolla/globals.yml
---
workaround_ansible_issue_8743: yes
config_strategy: "COPY_ALWAYS"
kolla_base_distro: "ubuntu"
openstack_release: "2023.1"
kolla_internal_vip_address: "192.168.200.254"
kolla_container_engine: docker
docker_configure_for_zun: "yes"
containerd_configure_for_zun: "yes"
docker_apt_package_pin: "5:20.*"
network_address_family: "ipv4"
neutron_plugin_agent: "openvswitch"
enable_openstack_core: "yes"
enable_glance: "{{ enable_openstack_core | bool }}"
enable_haproxy: "yes"
enable_keepalived: "{{ enable_haproxy | bool }}"
enable_keystone: "{{ enable_openstack_core | bool }}"
enable_mariadb: "yes"
enable_memcached: "yes"
enable_neutron: "{{ enable_openstack_core | bool }}"
enable_nova: "{{ enable_openstack_core | bool }}"
enable_aodh: "yes"
enable_ceilometer: "yes"
enable_cinder: "yes"
enable_cinder_backend_lvm: "yes"
enable_etcd: "yes"
enable_gnocchi: "yes"
enable_gnocchi_statsd: "yes"
enable_grafana: "yes"
enable_heat: "{{ enable_openstack_core | bool }}"
enable_horizon: "{{ enable_openstack_core | bool }}"
enable_horizon_zun: "{{ enable_zun | bool }}"
enable_kuryr: "yes"
enable_prometheus: "yes"
enable_zun: "yes"
glance_backend_file: "yes"
glance_file_datadir_volume: "/mnt/glance"
cinder_volume_group: "cinder-volumes"

NOTE that we enabled use of NFS share for the glance images mounted under /mnt/glance on the controller node. The NFS share is provided by the storage node.

On controller node, this is how NFS share is mounted;

df -hT -P /mnt/glance
Filesystem            Type  Size  Used Avail Use% Mounted on
storage01:/mnt/glance nfs4  100G  746M  100G   1% /mnt/glance

Refer to Kolla-ansible documentation guide to learn more about the global options used above. The configuration is also highly commented. Go through the comments for each option to learn what it is about a specific option.

Configure Multinode Deployment Inventory

Copy Kolla-ansible deployment multinode inventory to the current working directory. Since we are deploying multinode OpenStack using Kolla-ansible, copy the multinode ansible inventory file. This is the file which contains all the information needed to determine what services run on which nodes

cp $HOME/kolla-ansible/share/kolla-ansible/ansible/inventory/multinode .

This is how our multinode inventory is configured.

cat multinode
# These initial groups are the only groups required to be modified. The
# additional groups are for more control of the environment.
[control]
controller01 ansible_connection=local neutron_external_interface=vethext

# The above can also be specified as follows:
#control[01:03]     ansible_user=kolla

# The network nodes are where your l3-agent and loadbalancers will run
# This can be the same as a host in the control group
[network]
controller01 ansible_connection=local neutron_external_interface=vethext network_interface=br0

[compute]
compute01 neutron_external_interface=enp2s0 network_interface=enp1s0


[monitoring]
controller01 ansible_connection=local neutron_external_interface=vethext

# When compute nodes and control nodes use different interfaces,
# you need to comment out "api_interface" and other interfaces from the globals.yml
# and specify like below:
#compute01 neutron_external_interface=eth0 api_interface=em1 tunnel_interface=em1

[storage]
storage01 neutron_external_interface=enp10s0 network_interface=enp1s0

[deployment]
localhost       ansible_connection=local

[baremetal:children]
control
network
compute
storage
monitoring

[tls-backend:children]
control

# You can explicitly specify which hosts run each project by updating the
# groups in the sections below. Common services are grouped together.

[common:children]
control
network
compute
storage
monitoring

[collectd:children]
compute

[grafana:children]
monitoring

[etcd:children]
control

[influxdb:children]
monitoring

[prometheus:children]
monitoring

[kafka:children]
control

[telegraf:children]
compute
control
monitoring
network
storage

[hacluster:children]
control

[hacluster-remote:children]
compute

[loadbalancer:children]
network

[mariadb:children]
control

[rabbitmq:children]
control

[outward-rabbitmq:children]
control

[monasca-agent:children]
compute
control
monitoring
network
storage

[monasca:children]
monitoring

[storm:children]
monitoring

[keystone:children]
control

[glance:children]
control

[nova:children]
control

[neutron:children]
network

[openvswitch:children]
network
compute
manila-share

[cinder:children]
control

[cloudkitty:children]
control

[freezer:children]
control

[memcached:children]
control

[horizon:children]
control

[swift:children]
control

[barbican:children]
control

[heat:children]
control

[murano:children]
control

[solum:children]
control

[ironic:children]
control

[magnum:children]
control

[sahara:children]
control

[mistral:children]
control

[manila:children]
control

[ceilometer:children]
control

[aodh:children]
control

[cyborg:children]
control
compute

[gnocchi:children]
control

[tacker:children]
control

[trove:children]
control

[senlin:children]
control

[vitrage:children]
control

[watcher:children]
control

[octavia:children]
control

[designate:children]
control

[placement:children]
control

[bifrost:children]
deployment

[zookeeper:children]
control

[zun:children]
control

[skyline:children]
control

[redis:children]
control

[blazar:children]
control

[venus:children]
monitoring

# Additional control implemented here. These groups allow you to control which
# services run on which hosts at a per-service level.
#
# Word of caution: Some services are required to run on the same host to
# function appropriately. For example, neutron-metadata-agent must run on the
# same host as the l3-agent and (depending on configuration) the dhcp-agent.

# Common
[cron:children]
common

[fluentd:children]
common

[kolla-logs:children]
common

[kolla-toolbox:children]
common

[opensearch:children]
control

# Opensearch dashboards
[opensearch-dashboards:children]
opensearch

# Glance
[glance-api:children]
glance

# Nova
[nova-api:children]
nova

[nova-conductor:children]
nova

[nova-super-conductor:children]
nova

[nova-novncproxy:children]
nova

[nova-scheduler:children]
nova

[nova-spicehtml5proxy:children]
nova

[nova-compute-ironic:children]
nova

[nova-serialproxy:children]
nova

# Neutron
[neutron-server:children]
control

[neutron-dhcp-agent:children]
neutron

[neutron-l3-agent:children]
neutron

[neutron-metadata-agent:children]
neutron

[neutron-ovn-metadata-agent:children]
compute
network

[neutron-bgp-dragent:children]
neutron

[neutron-infoblox-ipam-agent:children]
neutron

[neutron-metering-agent:children]
neutron

[ironic-neutron-agent:children]
neutron

[neutron-ovn-agent:children]
compute
network

# Cinder
[cinder-api:children]
cinder

[cinder-backup:children]
storage

[cinder-scheduler:children]
cinder

[cinder-volume:children]
storage

# Cloudkitty
[cloudkitty-api:children]
cloudkitty

[cloudkitty-processor:children]
cloudkitty

# Freezer
[freezer-api:children]
freezer

[freezer-scheduler:children]
freezer

# iSCSI
[iscsid:children]
compute
storage
ironic

[tgtd:children]
storage

# Manila
[manila-api:children]
manila

[manila-scheduler:children]
manila

[manila-share:children]
network

[manila-data:children]
manila

# Swift
[swift-proxy-server:children]
swift

[swift-account-server:children]
storage

[swift-container-server:children]
storage

[swift-object-server:children]
storage

# Barbican
[barbican-api:children]
barbican

[barbican-keystone-listener:children]
barbican

[barbican-worker:children]
barbican

# Heat
[heat-api:children]
heat

[heat-api-cfn:children]
heat

[heat-engine:children]
heat

# Murano
[murano-api:children]
murano

[murano-engine:children]
murano

# Monasca
[monasca-agent-collector:children]
monasca-agent

[monasca-agent-forwarder:children]
monasca-agent

[monasca-agent-statsd:children]
monasca-agent

[monasca-api:children]
monasca

[monasca-log-persister:children]
monasca

[monasca-log-metrics:children]
monasca

[monasca-thresh:children]
monasca

[monasca-notification:children]
monasca

[monasca-persister:children]
monasca

# Storm
[storm-worker:children]
storm

[storm-nimbus:children]
storm

# Ironic
[ironic-api:children]
ironic

[ironic-conductor:children]
ironic

[ironic-inspector:children]
ironic

[ironic-tftp:children]
ironic

[ironic-http:children]
ironic

# Magnum
[magnum-api:children]
magnum

[magnum-conductor:children]
magnum

# Sahara
[sahara-api:children]
sahara

[sahara-engine:children]
sahara

# Solum
[solum-api:children]
solum

[solum-worker:children]
solum

[solum-deployer:children]
solum

[solum-conductor:children]
solum

[solum-application-deployment:children]
solum

[solum-image-builder:children]
solum

# Mistral
[mistral-api:children]
mistral

[mistral-executor:children]
mistral

[mistral-engine:children]
mistral

[mistral-event-engine:children]
mistral

# Ceilometer
[ceilometer-central:children]
ceilometer

[ceilometer-notification:children]
ceilometer

[ceilometer-compute:children]
compute

[ceilometer-ipmi:children]
compute

# Aodh
[aodh-api:children]
aodh

[aodh-evaluator:children]
aodh

[aodh-listener:children]
aodh

[aodh-notifier:children]
aodh

# Cyborg
[cyborg-api:children]
cyborg

[cyborg-agent:children]
compute

[cyborg-conductor:children]
cyborg

# Gnocchi
[gnocchi-api:children]
gnocchi

[gnocchi-statsd:children]
gnocchi

[gnocchi-metricd:children]
gnocchi

# Trove
[trove-api:children]
trove

[trove-conductor:children]
trove

[trove-taskmanager:children]
trove

# Multipathd
[multipathd:children]
compute
storage

# Watcher
[watcher-api:children]
watcher

[watcher-engine:children]
watcher

[watcher-applier:children]
watcher

# Senlin
[senlin-api:children]
senlin

[senlin-conductor:children]
senlin

[senlin-engine:children]
senlin

[senlin-health-manager:children]
senlin

# Octavia
[octavia-api:children]
octavia

[octavia-driver-agent:children]
octavia

[octavia-health-manager:children]
octavia

[octavia-housekeeping:children]
octavia

[octavia-worker:children]
octavia

# Designate
[designate-api:children]
designate

[designate-central:children]
designate

[designate-producer:children]
designate

[designate-mdns:children]
network

[designate-worker:children]
designate

[designate-sink:children]
designate

[designate-backend-bind9:children]
designate

# Placement
[placement-api:children]
placement

# Zun
[zun-api:children]
zun

[zun-wsproxy:children]
zun

[zun-compute:children]
compute

[zun-cni-daemon:children]
compute

# Skyline
[skyline-apiserver:children]
skyline

[skyline-console:children]
skyline

# Tacker
[tacker-server:children]
tacker

[tacker-conductor:children]
tacker

# Vitrage
[vitrage-api:children]
vitrage

[vitrage-notifier:children]
vitrage

[vitrage-graph:children]
vitrage

[vitrage-ml:children]
vitrage

[vitrage-persistor:children]
vitrage

# Blazar
[blazar-api:children]
blazar

[blazar-manager:children]
blazar

# Prometheus
[prometheus-node-exporter:children]
monitoring
control
compute
network
storage

[prometheus-mysqld-exporter:children]
mariadb

[prometheus-haproxy-exporter:children]
loadbalancer

[prometheus-memcached-exporter:children]
memcached

[prometheus-cadvisor:children]
monitoring
control
compute
network
storage

[prometheus-alertmanager:children]
monitoring

[prometheus-openstack-exporter:children]
monitoring

[prometheus-elasticsearch-exporter:children]
opensearch

[prometheus-blackbox-exporter:children]
monitoring

[prometheus-libvirt-exporter:children]
compute

[prometheus-msteams:children]
prometheus-alertmanager

[masakari-api:children]
control

[masakari-engine:children]
control

[masakari-hostmonitor:children]
control

[masakari-instancemonitor:children]
compute

[ovn-controller:children]
ovn-controller-compute
ovn-controller-network

[ovn-controller-compute:children]
compute

[ovn-controller-network:children]
network

[ovn-database:children]
control

[ovn-northd:children]
ovn-database

[ovn-nb-db:children]
ovn-database

[ovn-sb-db:children]
ovn-database

[venus-api:children]
venus

[venus-manager:children]
venus

In the storage node, we also created a block storage LVM volume group called cinder-volumes;

See below command output executed on storage node;

sudo vgs
  VG             #PV #LV #SN Attr   VSize    VFree   
  cinder-volumes   1   0   0 wz--n- <100.00g <100.00g
  glance           1   1   0 wz--n- <100.00g       0 
  ubuntu-vg        1   1   0 wz--n- <101.00g       0

See also that if different nodes have different interface names for network and management, define respective interface on each node as defined in the inventory file above.

Generate Kolla Passwords

Kolla passwords.yml configuration file stores various OpenStack services passwords. You can automatically generate the password using the Kolla-ansible kolla-genpwd in your virtual environment.

Ensure that your virtual environment is activated

source $HOME/kolla-ansible/bin/activate

Next, generate the passwords;

kolla-genpwd

All generated passwords will be populated to /etc/kolla/passwords.yml file.

Using Kolla-Ansible to Deploy Multinode OpenStack

Install Ansible Galaxy requirements

The Kolla Ansible Galaxy requirements are a set of Ansible roles and collections that are required to deploy OpenStack using Kolla Ansible.

To install them, run the command below;

kolla-ansible install-deps

Boostrap OpenStack Nodes with Kolla Deploy Dependencies

Since everything is setup so far, you can now start to deploy Multinode OpenStack.

Again, ensure that your virtual environment is activated.

source $HOME/kolla-ansible/bin/activate

Bootstrap your OpenStack nodes with kolla deploy dependencies using bootstrap-servers subcommand.

kolla-ansible -i multinode bootstrap-servers

Below is just a snippet of the bootstrapping command;

Bootstrapping servers : ansible-playbook -e @/etc/kolla/globals.yml  -e @/etc/kolla/passwords.yml -e CONFIG_DIR=/etc/kolla  -e kolla_action=bootstrap-servers /home/kifarunix/kolla-ansible/share/kolla-ansible/ansible/kolla-host.yml  --inventory multinode
[WARNING]: Invalid characters were found in group names but not replaced, use -vvvv to see details

PLAY [Gather facts for all hosts] ****************************************************************************************************************************

TASK [Gather facts] ******************************************************************************************************************************************
ok: [localhost]
ok: [storage01]
ok: [compute01]

TASK [Gather package facts] **********************************************************************************************************************************
skipping: [compute01]
skipping: [localhost]
skipping: [storage01]

TASK [Group hosts to determine when using --limit] ***********************************************************************************************************
ok: [compute01]
ok: [localhost]
ok: [storage01]
[WARNING]: Could not match supplied host pattern, ignoring: all_using_limit_True

PLAY [Gather facts for all hosts (if using --limit)] *********************************************************************************************************
skipping: no hosts matched

PLAY [Apply role baremetal] **********************************************************************************************************************************

TASK [openstack.kolla.etc_hosts : Include etc-hosts.yml] *****************************************************************************************************
included: /home/kifarunix/.ansible/collections/ansible_collections/openstack/kolla/roles/etc_hosts/tasks/etc-hosts.yml for localhost, compute01, storage01

TASK [openstack.kolla.etc_hosts : Ensure localhost in /etc/hosts] ********************************************************************************************
ok: [compute01]
ok: [storage01]
ok: [localhost]

TASK [openstack.kolla.etc_hosts : Ensure hostname does not point to 127.0.1.1 in /etc/hosts] *****************************************************************
ok: [localhost]
ok: [compute01]
ok: [storage01]

TASK [openstack.kolla.etc_hosts : Generate /etc/hosts for all of the nodes] **********************************************************************************
[WARNING]: Module remote_tmp /root/.ansible/tmp did not exist and was created with a mode of 0700, this may cause issues when running as another user. To
avoid this, create the remote_tmp dir with the correct permissions manually
changed: [storage01]
changed: [compute01]
changed: [localhost]

TASK [openstack.kolla.etc_hosts : Check whether /etc/cloud/cloud.cfg exists] *********************************************************************************
ok: [storage01]
ok: [localhost]
ok: [compute01]

TASK [openstack.kolla.etc_hosts : Disable cloud-init manage_etc_hosts] ***************************************************************************************
changed: [storage01]
changed: [localhost]
changed: [compute01]

TASK [openstack.kolla.baremetal : Ensure unprivileged users can use ping] ************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.baremetal : Set firewall default policy] ***********************************************************************************************
ok: [localhost]
ok: [storage01]
ok: [compute01]

TASK [openstack.kolla.baremetal : Check if firewalld is installed] *******************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.baremetal : Disable firewalld] *********************************************************************************************************
skipping: [localhost] => (item=firewalld) 
skipping: [localhost]
skipping: [compute01] => (item=firewalld) 
skipping: [compute01]
skipping: [storage01] => (item=firewalld) 
skipping: [storage01]

TASK [openstack.kolla.packages : Install packages] ***********************************************************************************************************
ok: [compute01]
ok: [storage01]
ok: [localhost]

TASK [openstack.kolla.packages : Remove packages] ************************************************************************************************************
changed: [storage01]
changed: [localhost]
changed: [compute01]

TASK [openstack.kolla.docker : include_tasks] ****************************************************************************************************************
included: /home/kifarunix/.ansible/collections/ansible_collections/openstack/kolla/roles/docker/tasks/repo-Debian.yml for localhost, compute01, storage01

TASK [openstack.kolla.docker : Install CA certificates and gnupg packages] ***********************************************************************************
ok: [localhost]
ok: [compute01]
ok: [storage01]

TASK [openstack.kolla.docker : Ensure apt sources list directory exists] *************************************************************************************
ok: [storage01]
ok: [compute01]
ok: [localhost]

TASK [openstack.kolla.docker : Ensure apt keyrings directory exists] *****************************************************************************************
ok: [localhost]
ok: [compute01]
ok: [storage01]

TASK [openstack.kolla.docker : Install docker apt gpg key] ***************************************************************************************************
changed: [compute01]
changed: [localhost]
changed: [storage01]

TASK [openstack.kolla.docker : Install docker apt pin] *******************************************************************************************************
changed: [localhost]
changed: [storage01]
changed: [compute01]

TASK [openstack.kolla.docker : Enable docker apt repository] *************************************************************************************************
changed: [storage01]
changed: [compute01]
changed: [localhost]

TASK [openstack.kolla.docker : Check which containers are running] *******************************************************************************************
ok: [compute01]
ok: [localhost]
ok: [storage01]

TASK [openstack.kolla.docker : Check if docker systemd unit exists] ******************************************************************************************
ok: [localhost]
ok: [compute01]
ok: [storage01]

TASK [openstack.kolla.docker : Mask the docker systemd unit on Debian/Ubuntu] ********************************************************************************
changed: [localhost]
changed: [compute01]
changed: [storage01]

TASK [openstack.kolla.docker : Install packages] *************************************************************************************************************
changed: [localhost]
changed: [storage01]
changed: [compute01]

TASK [openstack.kolla.docker : Start docker] *****************************************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.docker : Wait for Docker to start] *****************************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.docker : Ensure containers are running after Docker upgrade] ***************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.docker : Ensure docker config directory exists] ****************************************************************************************
changed: [localhost]
changed: [compute01]
changed: [storage01]

TASK [openstack.kolla.docker : Write docker config] **********************************************************************************************************
changed: [localhost]
changed: [compute01]
changed: [storage01]

TASK [openstack.kolla.docker : Remove old docker options file] ***********************************************************************************************
skipping: [compute01]
ok: [localhost]
ok: [storage01]

TASK [openstack.kolla.docker : Ensure docker service directory exists] ***************************************************************************************
skipping: [localhost]
skipping: [storage01]
changed: [compute01]

TASK [openstack.kolla.docker : Configure docker service] *****************************************************************************************************
skipping: [localhost]
skipping: [storage01]
changed: [compute01]

TASK [openstack.kolla.docker : Ensure the path for CA file for private registry exists] **********************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.docker : Ensure the CA file for private registry exists] *******************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.docker : Flush handlers] ***************************************************************************************************************

TASK [openstack.kolla.docker : Flush handlers] ***************************************************************************************************************

TASK [openstack.kolla.docker : Flush handlers] ***************************************************************************************************************

RUNNING HANDLER [openstack.kolla.docker : Reload docker service file] ****************************************************************************************
ok: [compute01]

RUNNING HANDLER [openstack.kolla.docker : Restart docker] ****************************************************************************************************
changed: [localhost]
changed: [storage01]
changed: [compute01]

TASK [openstack.kolla.docker : Start and enable docker] ******************************************************************************************************
changed: [storage01]
changed: [localhost]
changed: [compute01]

TASK [openstack.kolla.docker : include_tasks] ****************************************************************************************************************
skipping: [localhost]
skipping: [storage01]
included: /home/kifarunix/.ansible/collections/ansible_collections/openstack/kolla/roles/docker/tasks/configure-containerd-for-zun.yml for compute01

TASK [openstack.kolla.docker : Ensuring CNI config directory exist] ******************************************************************************************
changed: [compute01]

TASK [openstack.kolla.docker : Copying CNI config file] ******************************************************************************************************
changed: [compute01]

TASK [openstack.kolla.docker : Ensuring CNI bin directory exist] *********************************************************************************************
changed: [compute01]

TASK [openstack.kolla.docker : Copy zun-cni script] **********************************************************************************************************
changed: [compute01]

TASK [openstack.kolla.docker : Copying over containerd config] ***********************************************************************************************
changed: [compute01]

TASK [openstack.kolla.kolla_user : Ensure groups are present] ************************************************************************************************
skipping: [localhost] => (item=docker) 
skipping: [localhost] => (item=sudo) 
skipping: [localhost] => (item=kolla) 
skipping: [localhost]
skipping: [compute01] => (item=docker) 
skipping: [compute01] => (item=sudo) 
skipping: [compute01] => (item=kolla) 
skipping: [compute01]
skipping: [storage01] => (item=docker) 
skipping: [storage01] => (item=sudo) 
skipping: [storage01] => (item=kolla) 
skipping: [storage01]

TASK [openstack.kolla.kolla_user : Create kolla user] ********************************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.kolla_user : Add public key to kolla user authorized keys] *****************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.kolla_user : Grant kolla user passwordless sudo] ***************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.docker_sdk : Install packages] *********************************************************************************************************
changed: [localhost]
changed: [compute01]
changed: [storage01]

TASK [openstack.kolla.docker_sdk : Install latest pip in the virtualenv] *************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.docker_sdk : Install docker SDK for python] ********************************************************************************************
changed: [localhost]
changed: [storage01]
changed: [compute01]

TASK [openstack.kolla.baremetal : Ensure node_config_directory directory exists] *****************************************************************************
ok: [localhost]
changed: [compute01]
changed: [storage01]

TASK [openstack.kolla.apparmor_libvirt : include_tasks] ******************************************************************************************************
included: /home/kifarunix/.ansible/collections/ansible_collections/openstack/kolla/roles/apparmor_libvirt/tasks/remove-profile.yml for localhost, compute01, storage01

TASK [openstack.kolla.apparmor_libvirt : Get stat of libvirtd apparmor profile] ******************************************************************************
ok: [localhost]
ok: [compute01]
ok: [storage01]

TASK [openstack.kolla.apparmor_libvirt : Get stat of libvirtd apparmor disable profile] **********************************************************************
ok: [localhost]
ok: [compute01]
ok: [storage01]

TASK [openstack.kolla.apparmor_libvirt : Remove apparmor profile for libvirt] ********************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.baremetal : Change state of selinux] ***************************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.baremetal : Set https proxy for git] ***************************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.baremetal : Set http proxy for git] ****************************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

TASK [openstack.kolla.baremetal : Configure ceph for zun] ****************************************************************************************************
skipping: [localhost]
skipping: [compute01]
skipping: [storage01]

RUNNING HANDLER [openstack.kolla.docker : Restart containerd] ************************************************************************************************
changed: [compute01]

PLAY RECAP ***************************************************************************************************************************************************
compute01                  : ok=42   changed=23   unreachable=0    failed=0    skipped=20   rescued=0    ignored=0   
localhost                  : ok=33   changed=14   unreachable=0    failed=0    skipped=22   rescued=0    ignored=0   
storage01                  : ok=33   changed=15   unreachable=0    failed=0    skipped=22   rescued=0    ignored=0

This is what the bootstrap command do;

  • Customisation of /etc/hosts
  • Creation of user and group
  • Kolla configuration directory
  • Package installation and removal
  • Docker engine installation and configuration
  • Disabling firewalls
  • Creation of Python virtual environment
  • Configuration of Apparmor
  • Configuration of SELinux
  • Configuration of NTP daemon

Run pre-deployment checks on the nodes

Execute the command below to run the pre-deployment checks for hosts.

kolla-ansible -i multinode prechecks

Sample output;

...
PLAY RECAP ***************************************************************************************************************************************************
compute01                  : ok=50   changed=0    unreachable=0    failed=0    skipped=43   rescued=0    ignored=0   
localhost                  : ok=132  changed=0    unreachable=0    failed=0    skipped=163  rescued=0    ignored=0   
storage01                  : ok=35   changed=0    unreachable=0    failed=0    skipped=28   rescued=0    ignored=0 

Use Kolla-Ansible to deploy Multinode OpenStack

If everything is fine, proceed to deploy Multinode OpenStack on Ubuntu 22.04;

kolla-ansible -i multinode deploy

The process might take a while as it involves building containers for different OpenStack services.

If all ends well, you should get 0 failed tasks;

If during the deployment you encounter this error;

TASK [haproxy-config : Copying over nova-cell:nova-novncproxy haproxy config] ********************************************************************************
fatal: [localhost]: FAILED! => {"msg": "An unhandled exception occurred while templating '{{ cell_proxy_project_services | namespace_haproxy_for_cell(cell_name) }}'. Error was a <class 'ansible.errors.AnsibleError'>, original message: template error while templating string: Could not load \"namespace_haproxy_for_cell\": 'namespace_haproxy_for_cell'. String: {{ cell_proxy_project_services | namespace_haproxy_for_cell(cell_name) }}. Could not load \"namespace_haproxy_for_cell\": 'namespace_haproxy_for_cell'"}

It is suggested here, that you downgrade the version of Core ansible from 2.14.11 to 2.14.10 before running the deployment command;

pip install ansible-core==2.14.10

Next, re-run the deployment;

kolla-ansible -i multinode deploy

Ensure that no deployment task failed. If any fails, fix it before you can proceed.

Verify Multinode OpenStack Deployment

List Running OpenStack Docker Containers

Once the deployment is done, you can list running OpenStack docker containers.

Controller Node Containers:

docker ps
CONTAINER ID   IMAGE                                                                       COMMAND                  CREATED        STATUS                   PORTS     NAMES
ca9cecdf07eb   quay.io/openstack.kolla/zun-wsproxy:2023.1-ubuntu-jammy                     "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               zun_wsproxy
c3058fa2b631   quay.io/openstack.kolla/zun-api:2023.1-ubuntu-jammy                         "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               zun_api
555bf24841ed   quay.io/openstack.kolla/grafana:2023.1-ubuntu-jammy                         "dumb-init --single-…"   11 minutes ago    Up 11 minutes                         grafana
4ee3cb6600ef   quay.io/openstack.kolla/aodh-notifier:2023.1-ubuntu-jammy                   "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               aodh_notifier
028536a0b6d1   quay.io/openstack.kolla/aodh-listener:2023.1-ubuntu-jammy                   "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               aodh_listener
c86a15aa5c6d   quay.io/openstack.kolla/aodh-evaluator:2023.1-ubuntu-jammy                  "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               aodh_evaluator
fb83c42b6a73   quay.io/openstack.kolla/aodh-api:2023.1-ubuntu-jammy                        "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               aodh_api
6bed912c6098   quay.io/openstack.kolla/ceilometer-central:2023.1-ubuntu-jammy              "dumb-init --single-…"   11 minutes ago    Up 11 minutes (unhealthy)             ceilometer_central
5294be9ba04f   quay.io/openstack.kolla/ceilometer-notification:2023.1-ubuntu-jammy         "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               ceilometer_notification
cfd49c155691   quay.io/openstack.kolla/gnocchi-statsd:2023.1-ubuntu-jammy                  "dumb-init --single-…"   11 minutes ago    Up 11 minutes (unhealthy)             gnocchi_statsd
7ba7dab61ca7   quay.io/openstack.kolla/gnocchi-metricd:2023.1-ubuntu-jammy                 "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               gnocchi_metricd
605dd04439a1   quay.io/openstack.kolla/gnocchi-api:2023.1-ubuntu-jammy                     "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               gnocchi_api
dd0919801045   quay.io/openstack.kolla/horizon:2023.1-ubuntu-jammy                         "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               horizon
b16fa404322e   quay.io/openstack.kolla/heat-engine:2023.1-ubuntu-jammy                     "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               heat_engine
55af05818f8a   quay.io/openstack.kolla/heat-api-cfn:2023.1-ubuntu-jammy                    "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               heat_api_cfn
978aaaccae90   quay.io/openstack.kolla/heat-api:2023.1-ubuntu-jammy                        "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               heat_api
062fef51d803   quay.io/openstack.kolla/neutron-metadata-agent:2023.1-ubuntu-jammy          "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               neutron_metadata_agent
089d46bf865d   quay.io/openstack.kolla/neutron-l3-agent:2023.1-ubuntu-jammy                "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               neutron_l3_agent
f772f1b1489c   quay.io/openstack.kolla/neutron-dhcp-agent:2023.1-ubuntu-jammy              "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               neutron_dhcp_agent
9eeaba1aafda   quay.io/openstack.kolla/neutron-openvswitch-agent:2023.1-ubuntu-jammy       "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               neutron_openvswitch_agent
ad3c51b32405   quay.io/openstack.kolla/neutron-server:2023.1-ubuntu-jammy                  "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               neutron_server
5f0cf1f39419   quay.io/openstack.kolla/openvswitch-vswitchd:2023.1-ubuntu-jammy            "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               openvswitch_vswitchd
e848738cf82a   quay.io/openstack.kolla/openvswitch-db-server:2023.1-ubuntu-jammy           "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               openvswitch_db
75bee8399705   quay.io/openstack.kolla/nova-novncproxy:2023.1-ubuntu-jammy                 "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               nova_novncproxy
063a33022b2e   quay.io/openstack.kolla/nova-conductor:2023.1-ubuntu-jammy                  "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               nova_conductor
60dfe04def4c   quay.io/openstack.kolla/nova-api:2023.1-ubuntu-jammy                        "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               nova_api
78ed93d64411   quay.io/openstack.kolla/nova-scheduler:2023.1-ubuntu-jammy                  "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               nova_scheduler
3b870664710d   quay.io/openstack.kolla/placement-api:2023.1-ubuntu-jammy                   "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               placement_api
7f9d1e1665c2   quay.io/openstack.kolla/cinder-scheduler:2023.1-ubuntu-jammy                "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               cinder_scheduler
e149f97d312d   quay.io/openstack.kolla/cinder-api:2023.1-ubuntu-jammy                      "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               cinder_api
db46e9afa5c7   quay.io/openstack.kolla/glance-api:2023.1-ubuntu-jammy                      "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               glance_api
db46f61525f0   quay.io/openstack.kolla/haproxy:2023.1-ubuntu-jammy                         "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               haproxy
852fc98e1ea1   quay.io/openstack.kolla/keystone:2023.1-ubuntu-jammy                        "dumb-init --single-…"   15 minutes ago   Up 15 minutes (healthy)              keystone
573a2af3a09b   quay.io/openstack.kolla/keystone-fernet:2023.1-ubuntu-jammy                 "dumb-init --single-…"   15 minutes ago   Up 15 minutes (healthy)              keystone_fernet
0e0f71e8e708   quay.io/openstack.kolla/keystone-ssh:2023.1-ubuntu-jammy                    "dumb-init --single-…"   15 minutes ago   Up 15 minutes (healthy)              keystone_ssh
029256854ce7   quay.io/openstack.kolla/etcd:2023.1-ubuntu-jammy                            "dumb-init --single-…"   15 minutes ago   Up 15 minutes                        etcd
b74512e6271e   quay.io/openstack.kolla/rabbitmq:2023.1-ubuntu-jammy                        "dumb-init --single-…"   15 minutes ago   Up 15 minutes (healthy)              rabbitmq
fdeb9baf82a4   quay.io/openstack.kolla/prometheus-blackbox-exporter:2023.1-ubuntu-jammy    "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         prometheus_blackbox_exporter
0d23b50e8024   quay.io/openstack.kolla/prometheus-openstack-exporter:2023.1-ubuntu-jammy   "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         prometheus_openstack_exporter
dc9ba602c3de   quay.io/openstack.kolla/prometheus-alertmanager:2023.1-ubuntu-jammy         "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         prometheus_alertmanager
9f2de50c7835   quay.io/openstack.kolla/prometheus-cadvisor:2023.1-ubuntu-jammy             "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         prometheus_cadvisor
ab28657f81ee   quay.io/openstack.kolla/prometheus-memcached-exporter:2023.1-ubuntu-jammy   "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         prometheus_memcached_exporter
df50420038b5   quay.io/openstack.kolla/prometheus-haproxy-exporter:2023.1-ubuntu-jammy     "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         prometheus_haproxy_exporter
75941e5b1290   quay.io/openstack.kolla/prometheus-mysqld-exporter:2023.1-ubuntu-jammy      "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         prometheus_mysqld_exporter
8e589fcf6ca0   quay.io/openstack.kolla/prometheus-node-exporter:2023.1-ubuntu-jammy        "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         prometheus_node_exporter
59704ffe90b8   quay.io/openstack.kolla/prometheus-v2-server:2023.1-ubuntu-jammy            "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         prometheus_server
cef8926622bd   quay.io/openstack.kolla/memcached:2023.1-ubuntu-jammy                       "dumb-init --single-…"   15 minutes ago   Up 15 minutes (healthy)              memcached
c50a17f0fe26   quay.io/openstack.kolla/mariadb-server:2023.1-ubuntu-jammy                  "dumb-init -- kolla_…"   15 minutes ago   Up 15 minutes (healthy)              mariadb
9f1b1c0f060a   quay.io/openstack.kolla/mariadb-clustercheck:2023.1-ubuntu-jammy            "dumb-init --single-…"   15 minutes ago   Up 15 minutes                        mariadb_clustercheck
5cb589f36080   quay.io/openstack.kolla/keepalived:2023.1-ubuntu-jammy                      "dumb-init --single-…"   15 minutes ago   Up 15 minutes                        keepalived
58931dccea50   quay.io/openstack.kolla/cron:2023.1-ubuntu-jammy                            "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         cron
40b4dc10c199   quay.io/openstack.kolla/kolla-toolbox:2023.1-ubuntu-jammy                   "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         kolla_toolbox
09304a67aa14   quay.io/openstack.kolla/fluentd:2023.1-ubuntu-jammy                         "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         fluentd

OpenStack services are now up and running.

If you want to run Docker commands as standard user, add the user to the docker group.

sudo usermod -aG docker kifarunix

Confiirm the use of NFS share for the Glance images. The NFS share is bound to Glance image path, /var/lib/glance.

docker inspect glance_api
            {
                "Type": "bind",
                "Source": "/mnt/glance",
                "Destination": "/var/lib/glance",
                "Mode": "rw",
                "RW": true,
                "Propagation": "rprivate"
            },

Compute Node Containers:

docker ps
CONTAINER ID   IMAGE                                                                     COMMAND                  CREATED        STATUS                   PORTS     NAMES
58208486f3a8   quay.io/openstack.kolla/zun-cni-daemon:2023.1-ubuntu-jammy                "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               zun_cni_daemon
ff14d52b7e14   quay.io/openstack.kolla/zun-compute:2023.1-ubuntu-jammy                   "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               zun_compute
f66ff68bdf24   quay.io/openstack.kolla/ceilometer-compute:2023.1-ubuntu-jammy            "dumb-init --single-…"   11 minutes ago    Up 11 minutes (unhealthy)             ceilometer_compute
dabed085c5b7   quay.io/openstack.kolla/kuryr-libnetwork:2023.1-ubuntu-jammy              "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               kuryr
8f0d741d001e   quay.io/openstack.kolla/neutron-openvswitch-agent:2023.1-ubuntu-jammy     "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               neutron_openvswitch_agent
ec57feba083f   quay.io/openstack.kolla/openvswitch-vswitchd:2023.1-ubuntu-jammy          "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               openvswitch_vswitchd
9118cffd2892   quay.io/openstack.kolla/openvswitch-db-server:2023.1-ubuntu-jammy         "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               openvswitch_db
deba7e6de5a4   quay.io/openstack.kolla/nova-compute:2023.1-ubuntu-jammy                  "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               nova_compute
c9db01568849   quay.io/openstack.kolla/nova-libvirt:2023.1-ubuntu-jammy                  "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               nova_libvirt
b1370a657a30   quay.io/openstack.kolla/nova-ssh:2023.1-ubuntu-jammy                      "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)               nova_ssh
61d7027d0ded   quay.io/openstack.kolla/iscsid:2023.1-ubuntu-jammy                        "dumb-init --single-…"   11 minutes ago    Up 11 minutes                         iscsid
77627a749fe1   quay.io/openstack.kolla/prometheus-libvirt-exporter:2023.1-ubuntu-jammy   "dumb-init --single-…"   15 minutes ago   Up 15 minutes                        prometheus_libvirt_exporter
d9269fbd6c1b   quay.io/openstack.kolla/prometheus-cadvisor:2023.1-ubuntu-jammy           "dumb-init --single-…"   15 minutes ago   Up 15 minutes                        prometheus_cadvisor
14d2478293fc   quay.io/openstack.kolla/prometheus-node-exporter:2023.1-ubuntu-jammy      "dumb-init --single-…"   15 minutes ago   Up 15 minutes                        prometheus_node_exporter
a20ab3756886   quay.io/openstack.kolla/cron:2023.1-ubuntu-jammy                          "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         cron
ad85243d6c75   quay.io/openstack.kolla/kolla-toolbox:2023.1-ubuntu-jammy                 "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         kolla_toolbox
976a7e42f49d   quay.io/openstack.kolla/fluentd:2023.1-ubuntu-jammy                       "dumb-init --single-…"   15 minutes ago   Up 11 minutes                         fluentd

Storage Node Containers:

docker ps
CONTAINER ID   IMAGE                                                                  COMMAND                  CREATED        STATUS                 PORTS     NAMES
e97f28a62dab   quay.io/openstack.kolla/cinder-backup:2023.1-ubuntu-jammy              "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)             cinder_backup
ab53f97af025   quay.io/openstack.kolla/cinder-volume:2023.1-ubuntu-jammy              "dumb-init --single-…"   11 minutes ago    Up 11 minutes (healthy)             cinder_volume
9fb22368d98c   quay.io/openstack.kolla/tgtd:2023.1-ubuntu-jammy                       "dumb-init --single-…"   15 minutes ago   Up 15 minutes                      tgtd
6d89f289b8ba   quay.io/openstack.kolla/iscsid:2023.1-ubuntu-jammy                     "dumb-init --single-…"   15 minutes ago   Up 15 minutes                      iscsid
42521f44e85d   quay.io/openstack.kolla/prometheus-cadvisor:2023.1-ubuntu-jammy        "dumb-init --single-…"   15 minutes ago   Up 15 minutes                      prometheus_cadvisor
d09e87ddaf81   quay.io/openstack.kolla/prometheus-node-exporter:2023.1-ubuntu-jammy   "dumb-init --single-…"   15 minutes ago   Up 15 minutes                      prometheus_node_exporter
d32fdcb737a4   quay.io/openstack.kolla/cron:2023.1-ubuntu-jammy                       "dumb-init --single-…"   15 minutes ago   Up 15 minutes                      cron
1ba5afa44662   quay.io/openstack.kolla/kolla-toolbox:2023.1-ubuntu-jammy              "dumb-init --single-…"   15 minutes ago   Up 15 minutes                      kolla_toolbox
c9217e8a1dae   quay.io/openstack.kolla/fluentd:2023.1-ubuntu-jammy                    "dumb-init --single-…"   15 minutes ago   Up 15 minutes                      fluentd

The block storage cinder volume

Multinode OpenStack Post Deployment Tasks

Install OpenStack command line administration tools

You can now install OpenStack command line administration tools. You need to do this from the virtual environment on the control node.

source $HOME/kolla-ansible/bin/activate
pip install python-openstackclient -c https://releases.openstack.org/constraints/upper/2023.1
pip install python-neutronclient -c https://releases.openstack.org/constraints/upper/2023.1
pip install python-glanceclient -c https://releases.openstack.org/constraints/upper/2023.1
pip install python-heatclient -c https://releases.openstack.org/constraints/upper/2023.1

Generate OpenStack Admin Credentials

Generate OpenStack admin user credentials file (openrc) using the command below;

kolla-ansible post-deploy

This command generates the admin credentials file, /etc/kolla/admin-openrc.sh.

To be able to use OpenStack command line tools, you need to activate the credentials using the command below;

source /etc/kolla/admin-openrc.sh

You can now administer OpenStack from cli. For example, to list the currently available services on the controller node;

openstack service list
+----------------------------------+-----------+----------------+
| ID                               | Name      | Type           |
+----------------------------------+-----------+----------------+
| 0f7f02e155b947b1a1f9b4241b9d59ca | nova      | compute        |
| 2d5e37c3de0d4050bed2b4d774438bcd | glance    | image          |
| 3964a7fd68ff443ea8cbdd43bf6d7c87 | zun       | container      |
| 399d392f39114345806383ddccd97ea1 | cinderv3  | volumev3       |
| 51c2d69870ce4a5bbed416f910006ab5 | neutron   | network        |
| 7eb695afcee24953afe9d2c0bdae13b0 | aodh      | alarming       |
| 85d545bc729e4ef68350c00bfaa1dd71 | placement | placement      |
| a816fbd9022c46aaacd3b8a1cbcee0c6 | heat-cfn  | cloudformation |
| bd51d3dbbb304ea98cdc6f89606b618d | keystone  | identity       |
| e329af93def14d0c850adb7a80b4597a | gnocchi   | metric         |
| ff9b5a4ac2fb47d798c21d933f592e63 | heat      | orchestration  |
+----------------------------------+-----------+----------------+

Create Initial Networks, Images, Flavors etc [OPTIONAL]

Kolla-ansible ship with an initial script that you can use to create initial OpenStack networks, images, nova keys using init-runonce (kolla-ansible/share/kolla-ansible/init-runonce) script. The script downloads a cirros image and registers it. Then it configures networking and nova quotas to allow 40 m1.small instances to be created.

It is optional to use this script.

If you want to use this script, you can edit it and configure your floating network, that you want your instances to use.

See our guide on how to configure OpenStack Networks for Internet Access.

Reconfiguring the Stack

If you want to reconfigure the stack by adding or removing services, edit the globals.yml configuration file and redoply the changes from the virtual environment.

For example, after making changes on the globals config file, reconfigure the stack;

source /path/to/virtual-environment/bin/activate

The redeploy the changes;

kolla-ansible -i multinode reconfigure

You can also specify the specific nodes you want to deploy changes on.

Accessing OpenStack Web Interface (Horizon)

So far so good! OpenStack is up and running. It is time we login to the web interface via the defined Kolla VIP address. We set this to 192.168.200.254 in this guide.

Therefore, to access the OpenStack Horizon from the browser, use the address, http://192.168.200.254.

.This should take you to OpenStack web interface login page;

Deploy Multinode OpenStack using Kolla-Ansible

Login using admin as the username.

You can obtain the admin credentials from the Kolla passwords file, /etc/kolla/passwords.yml. For the Horizon authentication, you need to the Keystone admin password.

grep keystone_admin_password /etc/kolla/passwords.yml

When you successfully log in, you land on OpenStack horizon dashboard.

openstack horizon dashboard

Configure Networks for Internet Access

Check the guide below on how to configure networks for internet access.

How to Configure OpenStack Networks for Internet Access

And that marks the end of our guide on how to deploy Multi-node OpenStack using Kolla-Ansible on Ubuntu 22.04.

Further Reading

Getting Started with Ansible

OpenStack Administration guides

Getting Started with Docker

Reference

OpenStack Kolla-Ansible Quick Start Guide

Install and Run MariaDB as a Docker Container

Install and Deploy Kubernetes Cluster on Ubuntu 20.04

Install and Use Docker CE on CentOS 8

Install Docker CE on Ubuntu 20.04

Deploy Nagios NRPE Agents using Ansible

Deploy Nagios NRPE Agents using Ansible

In this tutorial, you will learn how to deploy Nagios NRPE Agents using Ansible. Ansible is an open-source automation tool used for configuration management, application

gradle

Install Gradle on Debian 10/9

In this guide, we are going to learn how to install Gradle on Debian 10/9. Gradle is an open-source build automation tool for building (but not