A new version was released and it is not necessary anymore to install from git. Change-Id: Id05c4b0c969d32c14e63f1b3e88bc73c8b7ff890 Partially-Implements: blueprint vagrant-improvements
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Vagrant up!
This guide describes how to use Vagrant to assist in developing for Kolla.
Vagrant is a tool to assist in scripted creation of virtual machines. Vagrant takes care of setting up CentOS-based VMs for Kolla development, each with proper hardware like memory amount and number of network interfaces.
Getting Started
The Vagrant script implements All-in-One (AIO) or multi-node deployments. AIO is the default.
In the case of multi-node deployment, the Vagrant setup builds a cluster with the following nodes by default:
- 3 control nodes
- 1 compute node
- 1 storage node (Note: ceph requires at least 3 storage nodes)
- 1 network node
- 1 operator node
The cluster node count can be changed by editing the Vagrantfile.
Kolla runs from the operator node to deploy OpenStack.
All nodes are connected with each other on the secondary NIC. The primary NIC is behind a NAT interface for connecting with the Internet. The third NIC is connected without IP configuration to a public bridge interface. This may be used for Neutron/Nova to connect to instances.
Start by downloading and installing the Vagrant package for the distro of choice. Various downloads can be found at the Vagrant downloads.
On Fedora 22 it is as easy as:
sudo dnf install vagrant ruby-devel libvirt-devel
Next install the hostmanager plugin so all hosts are recorded in /etc/hosts (inside each vm):
vagrant plugin install vagrant-hostmanager
Vagrant supports a wide range of virtualization technologies. This documentation describes libvirt. To install vagrant-libvirt plugin:
vagrant plugin install vagrant-libvirt
Setup NFS to permit file sharing between host and VMs. Contrary to rsync method, NFS allows both way synchronization and offers much better performances than VirtualBox shared folders. On Fedora 22:
sudo systemctl start nfs-server
firewall-cmd --permanent --add-port=2049/udp
firewall-cmd --permanent --add-port=2049/tcp
firewall-cmd --permanent --add-port=111/udp
firewall-cmd --permanent --add-port=111/tcp
Find a location in the system's home directory and checkout the Kolla repo:
git clone https://github.com/openstack/kolla.git ~/dev/kolla
Developers can now tweak the Vagrantfile or bring up the default AIO Centos7-based environment:
cd ~/dev/kolla/vagrant && vagrant up
The command vagrant status
provides a quick overview of
the VMs composing the environment.
Vagrant Up
Once Vagrant has completed deploying all nodes, the next step is to launch Kolla. First, connect with the operator node:
vagrant ssh operator
To speed things up, there is a local registry running on the operator. All nodes are configured so they can use this insecure repo to pull from, and use it as a mirror. Ansible may use this registry to pull images from.
All nodes have a local folder shared between the group and the
hypervisor, and a folder shared between all nodes and the
hypervisor. This mapping is lost after reboots, so make sure to use the
command vagrant reload <node>
when reboots are
required. Having this shared folder provides a method to supply a
different docker binary to the cluster. The shared folder is also used
to store the docker-registry files, so they are save from destructive
operations like vagrant destroy
.
Building images
Once logged on the operator VM call the
kolla-build
utility:
kolla-build
kolla-build
accept arguments as documented in image-building
.
Deploying OpenStack with Kolla
Deploy AIO with:
sudo kolla-ansible deploy
Deploy multinode with:
sudo kolla-ansible deploy -i /usr/share/kolla/ansible/inventory/multinode
Validate OpenStack is operational:
source ~/openrc
openstack user-list
Or navigate to http://10.10.10.254/ with a web browser.
Further Reading
All Vagrant documentation can be found at docs.vagrantup.com.