OpenStack VIM Installation

OpenStack VIM Installation

This document describes how to install a simple OpenStack which can be a Apmec VIM. Since the kolla-ansible provides a good and stable way to deploy an OpenStack environment, this document adopts it to finish this task.

The target OpenStack consists of three nodes. Besides the OpenStack role, the first one plays kolla-ansible deploy role, which will run a local registry, and be used to run kolla-ansible tool.

The basic information and the topology of these nodes is like this:

../_images/openstack_nodes.png

Prepare kolla-ansible

About how to prepare Docker and kolla-ansible environment, please refer to https://docs.openstack.org/kolla-ansible/latest/user/quickstart.html

Set up local kolla-ansible docker registry

Kolla-ansible is publishing the packaged Docker images at http://tarballs.openstack.org/kolla/images/. This document will use centos-source-registry-pike.tar.gz. So Download it:

# wget http://tarballs.openstack.org/kolla/images/centos-source-registry-pike.tar.gz

And unpack it:

# tar xzvf centos-source-registry-pike.tar.gz -C /opt/registry/

And start Docker registry container:

# docker run -d -v /opt/registry:/var/lib/registry -p 4000:5000 --restart=always --name registry registry:2

And set Docker to access local registry via insecure channel:

# cat /usr/lib/systemd/system/docker.service | grep insecure
ExecStart=/usr/bin/dockerd --insecure-registry 10.1.0.6:4000
# systemctl daemon-reload
# systemctl restart docker

Note

The way to set up Docker to access insecure registry depends on operating system and Docker version, above way is just an example.

And verify the local registry contains the needed images:

# curl -k localhost:4000/v2/_catalog
# curl -k localhost:4000/v2/lokolla/centos-source-fluentd/tags/list
{"name":"lokolla/centos-source-fluentd","tags":["5.0.1"]}

Install OpenStack

  1. Edit kolla ansible’s configuration file /etc/kolla/globals.yml:
---
kolla_install_type: "source"
openstack_release: "5.0.1"
kolla_internal_vip_address: "10.1.0.5"
docker_registry: "10.1.0.6:4000"
docker_namespace: "lokolla"
api_interface: "eth0"
tunnel_interface: "eth1"
neutron_external_interface: "eth2"
enable_glance: "yes"
enable_haproxy: "yes"
enable_keystone: "yes"
enable_mariadb: "yes"
enable_memcached: "yes"
enable_neutron: "yes"
enable_nova: "yes"
enable_rabbitmq: "yes"
enable_aodh: "yes"
enable_ceilometer: "yes"
enable_gnocchi: "yes"
enable_heat: "yes"
enable_horizon: "yes"
enable_neutron_sfc: "yes"

Note

If nodes are using different network interface names to connect each other, please define them in inventory file.

“10.1.0.5” is an un-used ip address, will be used as VIP address, realized by keepalived container.

  1. Run kolla-genpwd to generate system passwords:
$ sudo cp etc/kolla/passwords.yml /etc/kolla/passwords.yml
$ sudo kolla-genpwd

Note

If the pypi version is used to install kolla-ansible the skeleton passwords file may be under ‘/usr/share/kolla-ansible/etc_examples/kolla’.

With this command, /etc/kolla/passwords.yml will be populated with generated passwords.

  1. Editor inventory:

First copy the sample multinode inventory file from kolla-ansible:

# cp inventory/multinode ~/

Then edit it to contain all of the OpenStack nodes.

[all_vim_nodes]
10.1.0.8
10.1.0.7
10.1.0.6

[control:children]
all_vim_nodes

[network:children]
all_vim_nodes

[compute:children]
all_vim_nodes

[monitoring:children]
all_vim_nodes

[storage:children]
#if the apmec needs volume feature, put related nodes here
  1. Run kolla ansible deploy to install OpenStack system:
# kolla-ansible deploy -i ~/multinode
  1. Run kolla ansible post-deploy to generate apmec access environment file:
# kolla-ansible post-deploy

With this command, the “admin-openrc.sh” will be generated at /etc/kolla/admin-openrc.sh.

Prepare OpenStack

After installation, OpenStack administrator needs to:

  • Initialized the flavors that the platform will support. Most Apmec sample TOSCA templates will ask Apmec to create Flavor on demand. If not, the specified flavor in templates must exist in OpenStack.
  • Upload related images. Apmec repo’s sample TOSCA templates are referring to cirros image named ‘cirros-0.3.5-x86_64-disk’, so this image should uploaded into OpenStack before Apmec uses it.

In additions, following steps are needed:

  1. Create projects and users which can be used by Apmec:

This is a simple task for any OpenStack administrator, but one thing to pay attention to is that the user must have ‘admin’ and ‘heat_stack_owner’ roles on the user’s project.

../_images/openstack_role.png
  1. Create Neutron networks:

Most sample TOSCA templates assume there are three Neutron networks in target OpenStack that the VIM user can use:

  • net_mgmt, which is a network Apmec system can access to. Some Apmec features, such as monitor policies, need Apmec to access started MEA virtual machines. For Apmec to access MEA via net_mgmt, net_mgmt can be a provider network.
  • net0 and net1, which are two business networks which MEAs will use. How to connected them depends on the MEAs’ business.

So create these three networks accordingly. For commands to create Neutron networks, please refer to https://docs.openstack.org/python-openstackclient/latest/cli/command-objects/network.html

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