This section provides information on the development tools provided by kayobe to automate the deployment of various development environments.
For a manual procedure, see Manual Setup.
The kayobe development environment automation tooling is built using simple shell scripts. Some minimal configuration can be applied by setting the environment variables in dev/config.sh. Control plane configuration is typically provided via the kayobe-config-dev repository, although it is also possible to use your own kayobe configuration. This allows us to build a development environment that is as close to production as possible.
The following development environments are supported:
The seed VM environment may be used in an environment already deployed as a seed hypervisor.
Clone the kayobe repository:
git clone https://opendev.org/x/kayobe.git
Change the current directory to the kayobe repository:
cd kayobe
Clone the kayobe-config-dev
repository to config/src/kayobe-config
:
mkdir -p config/src
git clone https://opendev.org/x/kayobe-config-dev.git config/src/kayobe-config
Inspect the kayobe configuration and make any changes necessary for your environment.
If using Vagrant, follow the steps in Vagrant to prepare your environment for use with Vagrant and bring up a Vagrant VM.
If not using Vagrant, the default development configuration expects the
presence of a bridge interface on the OpenStack controller host to carry
control plane traffic. The bridge should be named breth1
with a single
port eth1
, and an IP address of 192.168.33.3/24
. This can be modified
by editing
config/src/kayobe-config/etc/kayobe/inventory/group_vars/controllers/network-interfaces
.
Alternatively, this can be added using the following commands:
sudo ip l add breth1 type bridge
sudo ip l set breth1 up
sudo ip a add 192.168.33.3/24 dev breth1
sudo ip l add eth1 type dummy
sudo ip l set eth1 up
sudo ip l set eth1 master breth1
If using Vagrant, SSH into the Vagrant VM and change to the shared directory:
vagrant ssh
cd /vagrant
If not using Vagrant, run the dev/install-dev.sh
script to install kayobe and
its dependencies in a virtual environment:
./dev/install-dev.sh
Note
This will create an editable install.
It is also possible to install kayobe in a non-editable way, such that
changes will not been seen until you reinstall the package. To do this you
can run ./dev/install.sh
.
Run the dev/overcloud-deploy.sh
script to deploy the OpenStack control
plane:
./dev/overcloud-deploy.sh
Upon successful completion of this script, the control plane will be active.
Scripts are provided for testing the creation of virtual and bare metal instances.
The control plane can be tested by running the dev/overcloud-test-vm.sh
script. This will run the init-runonce
setup script provided by Kolla
Ansible that registers images, networks, flavors etc. It will then deploy a
virtual server instance, and delete it once it becomes active:
./dev/overcloud-test-vm.sh
For a control plane with Ironic enabled, a “bare metal” instance can be deployed. We can use the Tenks project to create fake bare metal nodes.
Clone the tenks repository:
git clone https://opendev.org/openstack/tenks.git
Optionally, edit the Tenks configuration file,
dev/tenks-deploy-config-compute.yml
.
Run the dev/tenks-deploy-compute.sh
script to deploy Tenks:
./dev/tenks-deploy-compute.sh ./tenks
Check that Tenks has created VMs called tk0
and tk1
:
sudo virsh list --all
Verify that VirtualBMC is running:
~/tenks-venv/bin/vbmc list
We are now ready to run the dev/overcloud-test-baremetal.sh
script. This
will run the init-runonce
setup script provided by Kolla Ansible that
registers images, networks, flavors etc. It will then deploy a bare metal
server instance, and delete it once it becomes active:
./dev/overcloud-test-baremetal.sh
The machines and networking created by Tenks can be cleaned up via
dev/tenks-teardown-compute.sh
:
./dev/tenks-teardown-compute.sh ./tenks
It is possible to test an upgrade from a previous release by running the
dev/overcloud-upgrade.sh
script:
./dev/overcloud-upgrade.sh
These instructions cover deploying the seed services directly rather than in a VM. See Seed VM for instructions covering deployment of the seed services in a VM.
Clone the kayobe repository:
git clone https://opendev.org/x/kayobe.git
Change to the kayobe
directory:
cd kayobe
Clone the kayobe-config-dev
repository to config/src/kayobe-config
:
mkdir -p config/src
git clone https://opendev.org/x/kayobe-config-dev.git config/src/kayobe-config
Inspect the kayobe configuration and make any changes necessary for your environment.
The default development configuration expects the presence of a bridge
interface on the seed host to carry provisioning traffic. The bridge should be
named breth1
with a single port eth1
, and an IP address of
192.168.33.5/24
. This can be modified by editing
config/src/kayobe-config/etc/kayobe/inventory/group_vars/seed/network-interfaces
.
Alternatively, this can be added using the following commands:
sudo ip l add breth1 type bridge
sudo ip l set breth1 up
sudo ip a add 192.168.33.5/24 dev breth1
sudo ip l add eth1 type dummy
sudo ip l set eth1 up
sudo ip l set eth1 master breth1
Run the dev/install.sh
script to install kayobe and its dependencies in a
virtual environment:
./dev/install.sh
Run the dev/seed-deploy.sh
script to deploy the seed services:
./dev/seed-deploy.sh
Upon successful completion of this script, the seed will be active.
The seed services may be tested using the Tenks project to create fake bare metal nodes.
Clone the tenks repository:
git clone https://opendev.org/openstack/tenks.git
Optionally, edit the Tenks configuration file,
dev/tenks-deploy-config-overcloud.yml
.
Run the dev/tenks-deploy-overcloud.sh
script to deploy Tenks:
./dev/tenks-deploy-overcloud.sh ./tenks
Check that Tenks has created a VM called controller0
:
sudo virsh list --all
Verify that VirtualBMC is running:
~/tenks-venv/bin/vbmc list
The machines and networking created by Tenks can be cleaned up via
dev/tenks-teardown-overcloud.sh
:
./dev/tenks-teardown-overcloud.sh ./tenks
The seed hypervisor development environment is supported for CentOS 7. The system must be either bare metal, or a VM on a system with nested virtualisation enabled.
The following commands should be executed on the seed hypervisor.
Clone the kayobe repository:
git clone https://opendev.org/x/kayobe.git
Change the current directory to the kayobe repository:
cd kayobe
Clone the add-seed-and-hv
branch of the kayobe-config-dev
repository to
config/src/kayobe-config
:
mkdir -p config/src
git clone https://github.com/markgoddard/dev-kayobe-config -b add-seed-and-hv config/src/kayobe-config
Inspect the kayobe configuration and make any changes necessary for your environment.
Run the dev/install-dev.sh
script to install kayobe and its dependencies in a
virtual environment:
./dev/install-dev.sh
Note
This will create an editable install.
It is also possible to install kayobe in a non-editable way, such that
changes will not been seen until you reinstall the package. To do this you
can run ./dev/install.sh
.
Run the dev/seed-hypervisor-deploy.sh
script to deploy the seed
hypervisor:
./dev/seed-hypervisor-deploy.sh
Upon successful completion of this script, the seed hypervisor will be active.
The seed VM should be deployed on a system configured as a libvirt/KVM hypervisor, using Seed Hypervisor or otherwise.
The following commands should be executed on the seed hypervisor.
Clone the kayobe repository:
git clone https://opendev.org/x/kayobe.git
Change to the kayobe
directory:
cd kayobe
Clone the add-seed-and-hv
branch of the kayobe-config-dev
repository to
config/src/kayobe-config
:
mkdir -p config/src
git clone https://github.com/markgoddard/dev-kayobe-config -b add-seed-and-hv config/src/kayobe-config
Inspect the kayobe configuration and make any changes necessary for your environment.
Run the dev/install-dev.sh
script to install kayobe and its dependencies in a
virtual environment:
./dev/install-dev.sh
Note
This will create an editable install.
It is also possible to install kayobe in a non-editable way, such that
changes will not been seen until you reinstall the package. To do this you
can run ./dev/install.sh
.
Run the dev/seed-deploy.sh
script to deploy the seed VM:
./dev/seed-deploy.sh
Upon successful completion of this script, the seed VM will be active. The
seed VM may be accessed via SSH as the stack
user:
ssh stack@192.168.33.5
It is possible to test an upgrade by running the dev/seed-upgrade.sh
script:
./dev/seed-upgrade.sh
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