Cluster Boot Requirements
- OpenStack Deploy: https://github.com/nds-org/ndslabs-deploy-tools
- Kubernetes Deploy (including optional tools - logging, monitoring, etc)
- Gluster Deploy
- NDS-209 - Getting issue details... STATUS
- NDS-227 - Getting issue details... STATUS
- new ticket:
NDS-237
-
Getting issue details...
STATUS
- See https://github.com/nds-org/gluster for processes
- NDS Labs Deploy
- new ticket:
NDS-238
-
Getting issue details...
STATUS
- See https://github.com/nds-org/ndslabs-system-shell for processes
- new ticket:
NDS-238
-
Getting issue details...
STATUS
Multi-node Requirements
NDS-191 - Getting issue details... STATUS
- OpenStack Deploy
- Do these tasks already include deployment of each type of node necessary?
- etcd
- k8 master
- k8 worker
- gluster
- Do these tasks already include deployment of each type of node necessary?
- Kubernetes Deploy
- This should be ready for multi-node, right?
- Gluster Deploy
- What types / how many of each type of nodes?
- NDS Labs Deploy
- What types / how many of each type of nodes?
- single node for gui + apiserver?
- one node each for gui / apiserver?
- What types / how many of each type of nodes?
Ansible Overview
- Playbooks
- Tasks / Roles
- Inventories
- Servers
- Group Vars
- Groups
Configuration
Ansible configuration is held in FILES.deploy-tools/etc/ansible
Running Ansible
OpenRC File
This file obtains everything that ansible needs to deploy virtual machine instances to OpenStack.
- Log into nebula interface
- On the left side click "Access & Security"
- On the top tab bar, click "API Access"
- On the top right, click "Download OpenStack RC File"
Map this file with -v path/to/openrc/file:/root/SAVED_AND_SENSITIVE_VOLUME
Run deploy-tools
Execute the following command to run the deploy-tools container, substituting in the location of your OpenRC file:
docker run -it --rm --net=host -v path/to/openrc/dir:/root/SAVED_AND_SENSITIVE_VOLUME ndslabs/deploy-tools:243 usage docker
This container has ansible, nova, cinder, and other tools necessary to programmatically create and delete machine instances on Nebula.
Source openrc.sh
Now that you're in the container, source the openrc file mapped into /root/SAVED_AND_SENSITIVE_VOLUME
source /root/SAVED_AND_SENSITIVE_VOLUME/PROJECT-openrc.sh
Build a Cluster Inventory
Copy and modify the example cluster inventory to your liking:
cp inventory/example inventory/new-cluster vi inventory/new-cluster
Example
An example inventory is explained in detail below:
# # Servers # # These are the target instance names on Nebula. # The [x:y] notation defines a range, allowing you to specify quantities for each machine type. # [etcd] c1_etcd[1:3] [glfs] c1_gfs[1:4] [master] c1_master[1:2] [k8compute] c1_node[1:3] [loadbal] c1_loadbal # # Groups - assigned according to roles # # The server groups defined above are then further grouped into "cluster1". # "cluster1" is then assigned the roles/tasks for "openstack" and "coreos" # [cluster1:children] etcd glfs master k8compute loadbal # These groups are configured in /root/group_vars # The group are assigned roles in /root/playbooks/kubernetes-infrastructure.yml # The roles themselves are defined in /usr/local/lib/ndslabs/ansible/roles [openstack:children] cluster1 [coreos:children] cluster1 [publicip:children] loadbal # # Cluster-Specific Group Variables/overrides # # Configure GlusterFS volumes for desired bricks # This includes the volume sizes and mount paths necessary for Gluster # # Configure "cluster1" group to create or reuse the SSH key called "cluster1" # Default the "cluster1" group to m1.medium CoreOSAlpha instances # [glfs:vars] vol_size= 200 vol_name= brick0 mount_path= /media/brick0 service_name=media-brick0.mount [cluster1:vars] key_name= cluster1 # Default image/flavor image= CoreOSAlpha flavor= m1.medium
Run ansible-playbook
Run the Ansible playbook kubernetes-infrastructure.yml with your modified inventory file.
ansible-playbook -i inventory/new-cluster playbooks/kubernetes-infrastructure.yml
Ansible should then spin up your desired configuration within a few minutes.