Chapter 9. Configuring a basic overcloud with pre-provisioned nodes

Before you begin deploying an overcloud with pre-provisioned nodes, ensure that the following configuration is present in your environment:

When you configure an overcloud with pre-provisioned nodes, director requires SSH access to the overcloud nodes as the stack user. To create the stack user, complete the following steps.

Each node requires access to a Red Hat subscription. Complete the following steps on each node to register your nodes with the Red Hat Content Delivery Network.

The node is now ready to use for your overcloud.

If the director uses SSL/TLS, the pre-provisioned nodes require the certificate authority file used to sign the director’s SSL/TLS certificates. If you use your own certificate authority, perform the following actions on each overcloud node.

These steps ensure that the overcloud nodes can access the director’s Public API over SSL/TLS.

The pre-provisioned overcloud nodes obtain metadata from director using standard HTTP requests. This means all overcloud nodes require L3 access to either:

Director uses the Control Plane network to manage and configure a standard overcloud. For an overcloud with pre-provisioned nodes, your network configuration might require some modification to accommodate communication between the director and the pre-provisioned nodes.

During standard overcloud creation, director creates OpenStack Networking (neutron) ports and automatically assigns IP addresses to the overcloud nodes on the Provisioning / Control Plane network. However, this can cause director to assign different IP addresses to the ones that you configure manually for each node. In this situation, use a predictable IP address strategy to force director to use the pre-provisioned IP assignments on the Control Plane.

For example, you can use an environment file ctlplane-assignments.yaml with the following IP assignments to implement a predictable IP strategy:

resource_registry:
  OS::TripleO::DeployedServer::ControlPlanePort: /usr/share/openstack-tripleo-heat-templates/deployed-server/deployed-neutron-port.yaml

parameter_defaults:
  DeployedServerPortMap:
    controller-0-ctlplane:
      fixed_ips:
        - ip_address: 192.168.24.2
      subnets:
        - cidr: 192.168.24.0/24
      network:
        tags:
          192.168.24.0/24
    compute-0-ctlplane:
      fixed_ips:
        - ip_address: 192.168.24.3
      subnets:
        - cidr: 192.168.24.0/24
      network:
        tags:
          - 192.168.24.0/24

In this example, the OS::TripleO::DeployedServer::ControlPlanePort resource passes a set of parameters to director and defines the IP assignments of your pre-provisioned nodes. Use the DeployedServerPortMap parameter to define the IP addresses and subnet CIDRs that correspond to each overcloud node. The mapping defines the following attributes:

A later section in this chapter uses the resulting environment file (ctlplane-assignments.yaml) as part of the openstack overcloud deploy command.

By default, director uses the Provisioning network as the overcloud Control Plane. However, if this network is isolated and non-routable, nodes cannot communicate with the director Internal API during configuration. In this situation, you might need to define a separate network for the nodes and configure them to communicate with the director over the Public API.

There are several requirements for this scenario:

The examples in this section use IP address assignments that differ from the main scenario:

The following sections provide additional configuration for situations that require a separate network for overcloud nodes.

resource_registry:
  OS::TripleO::DeployedServer::ControlPlanePort: /usr/share/openstack-tripleo-heat-templates/deployed-server/deployed-neutron-port.yaml
  OS::TripleO::Network::Ports::ControlPlaneVipPort: /usr/share/openstack-tripleo-heat-templates/deployed-server/deployed-neutron-port.yaml
  OS::TripleO::Network::Ports::RedisVipPort: /usr/share/openstack-tripleo-heat-templates/network/ports/noop.yaml 1

parameter_defaults:
  NeutronPublicInterface: eth1
  EC2MetadataIp: 192.168.100.1 2
  ControlPlaneDefaultRoute: 192.168.100.1
  DeployedServerPortMap:
    control_virtual_ip:
      fixed_ips:
        - ip_address: 192.168.100.1
      subnets:
        - cidr: 24
    controller-0-ctlplane:
      fixed_ips:
        - ip_address: 192.168.100.2
      subnets:
        - cidr: 24
    compute-0-ctlplane:
      fixed_ips:
        - ip_address: 192.168.100.3
      subnets:
        - cidr: 24

When you configure pre-provisioned nodes, you must map heat-based hostnames to their actual hostnames so that ansible-playbook can reach a resolvable host. Use the HostnameMap to map these values.

Complete the following steps on the undercloud host to configure ceph-ansible for nodes that are already deployed.

Procedure

When you run the openstack overcloud deploy command, Ansible configures the hosts that you define in the OVERCLOUD_HOSTS variable as Ceph clients.

The overcloud deployment uses the standard CLI methods from Section 7.13, “Deployment command”. For pre-provisioned nodes, the deployment command requires some additional options and environment files from the core heat template collection:

The following command is an example overcloud deployment command with the environment files specific to the pre-provisioned architecture:

$ source ~/stackrc
(undercloud) $ openstack overcloud deploy \
  [other arguments] \
  --disable-validations \
  -e /usr/share/openstack-tripleo-heat-templates/environments/deployed-server-environment.yaml \
  -e /home/stack/templates/hostname-map.yaml \
  --overcloud-ssh-user stack \
  --overcloud-ssh-key ~/.ssh/id_rsa \
  [OTHER OPTIONS]

The --overcloud-ssh-user and --overcloud-ssh-key options are used to SSH into each overcloud node during the configuration stage, create an initial tripleo-admin user, and inject an SSH key into /home/tripleo-admin/.ssh/authorized_keys. To inject the SSH key, specify the credentials for the initial SSH connection with --overcloud-ssh-user and --overcloud-ssh-key (defaults to ~/.ssh/id_rsa). To limit exposure to the private key that you specify with the --overcloud-ssh-key option, director never passes this key to any API service, such as heat or the Workflow service (mistral), and only the director openstack overcloud deploy command uses this key to enable access for the tripleo-admin user.

When the overcloud creation completes, director provides a recap of the Ansible plays that were executed to configure the overcloud:

PLAY RECAP *************************************************************
overcloud-compute-0     : ok=160  changed=67   unreachable=0    failed=0
overcloud-controller-0  : ok=210  changed=93   unreachable=0    failed=0
undercloud              : ok=10   changed=7    unreachable=0    failed=0

Tuesday 15 October 2018  18:30:57 +1000 (0:00:00.107) 1:06:37.514 ******
========================================================================

Director also provides details to access your overcloud.

Ansible passed.
Overcloud configuration completed.
Overcloud Endpoint: http://192.168.24.113:5000
Overcloud Horizon Dashboard URL: http://192.168.24.113:80/dashboard
Overcloud rc file: /home/stack/overcloudrc
Overcloud Deployed

The director generates a script to configure and help authenticate interactions with your overcloud from the undercloud. The director saves this file, overcloudrc, in the home directory of the stack user. Run the following command to use this file:

(undercloud) $ source ~/overcloudrc

This command loads the environment variables that are necessary to interact with your overcloud from the undercloud CLI. The command prompt changes to indicate this:

(overcloud) $

To return to interacting with the undercloud, run the following command:

(overcloud) $ source ~/stackrc
(undercloud) $

Each node in the overcloud also contains a heat-admin user. The stack user has SSH access to this user on each node. To access a node over SSH, find the IP address of the node that you want to access:

(undercloud) $ openstack server list

Then connect to the node using the heat-admin user and the IP address of the node:

(undercloud) $ ssh heat-admin@192.168.24.23

The process for scaling pre-provisioned nodes is similar to the standard scaling procedures in Chapter 15, Scaling overcloud nodes. However, the process to add new pre-provisioned nodes differs because pre-provisioned nodes do not use the standard registration and management process from OpenStack Bare Metal (ironic) and OpenStack Compute (nova).

Perform the following actions to scale up overcloud nodes:

In most scaling operations, you must obtain the UUID value of the node that you want to remove and pass this value to the openstack overcloud node delete command. To obtain this UUID, list the resources for the specific role:

$ openstack stack resource list overcloud -c physical_resource_id -c stack_name -n5 --filter type=OS::TripleO::<RoleName>Server

Replace <RoleName> with the name of the role that you want to scale down. For example, for the ComputeDeployedServer role, run the following command:

$ openstack stack resource list overcloud -c physical_resource_id -c stack_name -n5 --filter type=OS::TripleO::ComputeDeployedServerServer

Use the stack_name column in the command output to identify the UUID associated with each node. The stack_name includes the integer value of the index of the node in the heat resource group:

+------------------------------------+----------------------------------+
| physical_resource_id               | stack_name                       |
+------------------------------------+----------------------------------+
| 294d4e4d-66a6-4e4e-9a8b-           | overcloud-ComputeDeployedServer- |
| 03ec80beda41                       | no7yfgnh3z7e-1-ytfqdeclwvcg      |
| d8de016d-                          | overcloud-ComputeDeployedServer- |
| 8ff9-4f29-bc63-21884619abe5        | no7yfgnh3z7e-0-p4vb3meacxwn      |
| 8c59f7b1-2675-42a9-ae2c-           | overcloud-ComputeDeployedServer- |
| 2de4a066f2a9                       | no7yfgnh3z7e-2-mmmaayxqnf3o      |
+------------------------------------+----------------------------------+

The indices 0, 1, or 2 in the stack_name column correspond to the node order in the heat resource group. Pass the corresponding UUID value from the physical_resource_id column to openstack overcloud node delete command.

After you remove overcloud nodes from the stack, power off these nodes. In a standard deployment, the bare metal services on the director control this function. However, with pre-provisioned nodes, you must either manually shut down these nodes or use the power management control for each physical system. If you do not power off the nodes after removing them from the stack, they might remain operational and reconnect as part of the overcloud environment.

After you power off the removed nodes, reprovision them to a base operating system configuration so that they do not unintentionally join the overcloud in the future

To remove an entire overcloud that uses pre-provisioned nodes, see Section 12.5, “Removing the overcloud” for the standard overcloud remove procedure. After you remove the overcloud, power off all nodes and reprovision them to a base operating system configuration.

This concludes the creation of the overcloud using pre-provisioned nodes. For post-creation functions, see Chapter 11, Performing overcloud post-installation tasks.