5 Deployment #
This section describes the process steps for the deployment of the Rancher Kubernetes Engine solution. It describes the process steps to deploy each of the component layers starting as a base functional proof-of-concept, having considerations on migration toward production, providing scaling guidance that is needed to create the solution.
5.1 Deployment overview #
The deployment stack is represented in the following figure:
and details are covered for each layer in the following sections.
The following section’s content is ordered and described from the bottom layer up to the top.
5.2 Compute Platform #
The base, starting configuration can reside all within a single server. Based upon the relatively small resource requirements for a Rancher Kubernetes Engine deployment, a viable approach is to deploy as a virtual machine (VM) on the target nodes, on top of an existing hypervisor, like KVM. For physical host, there are tools that can be used during the setup of the server, see below.
The Integrated Dell Remote Access Controller (iDRAC) is designed for secure local and remote server management and helps IT administrators deploy, update and monitor Dell EMC PowerEdge servers anywhere, anytime.
The Virtual Media function allows the remote usage of software image files (ISO files), which can be used for installing operating systems or updating servers.
5.3 SUSE Linux Enterprise Server #
As the base software layer, use an enterprise-grade Linux operating system. For example, SUSE Linux Enterprise Server.
- Preparation(s)
To meet the solution stack prerequisites and requirements, SUSE operating system offerings, like SUSE Linux Enterprise Server can be used.
Ensure these services are in place and configured for this node to use:
Domain Name Service (DNS) - an external network-accessible service to map IP Addresses to host names
Network Time Protocol (NTP) - an external network-accessible service to obtain and synchronize system times to aid in time stamp consistency
Software Update Service - access to a network-based repository for software update packages. This can be accessed directly from each node via registration to
the general, internet-based SUSE Customer Center (SCC) or
an organization’s SUSE Manager infrastructure or
a local server running an instance of Repository Mirroring Tool (RMT)
NoteDuring the node’s installation, it can be pointed to the respective update service. This can also be accomplished post-installation with the command line tool named SUSEConnect.
- Deployment Process
On the compute platform node, install the noted SUSE operating system, by following these steps:
Download the SUSE Linux Enterprise Server product (either for the ISO or Virtual Machine image)
Identify the appropriate, supported version of SUSE Linux Enterprise Server by reviewing the support matrix for SUSE Rancher versions Web page.
The installation process is described and can be performed with default values by following steps from the product documentation, see Installation Quick Start
TipAdjust both the password and the local network addressing setup to comply with local environment guidelines and requirements.
- Deployment Consideration(s)
To further optimize deployment factors, leverage the following practices:
To reduce user intervention, unattended deployments of SUSE Linux Enterprise Server can be automated
for ISO-based installations, by referring to the AutoYaST Guide
5.4 Rancher Kubernetes Engine #
- Preparation(s)
Identify the appropriate, desired version of the Rancher Kubernetes Engine binary (for example vX.Y.Z) that includes the needed Kubernetes version by reviewing
the "Supported Rancher Kubernetes Engine Versions" associated with the respective SUSE Rancher version from "Rancher Kubernetes Engine Downstream Clusters" section, or
the "Releases" on the Download Web page.
On the target node with a default installation of SUSE Linux Enterprise Server operating system, log in to the node either as root or as a user with sudo privileges and enable the required container runtime engine
sudo SUSEConnect -p sle-module-containers/15.3/x86_64 sudo zypper refresh ; zypper install docker sudo systemctl enable --now docker.service
Then validate the container runtime engine is working
sudo systemctl status docker.service sudo docker ps --all
For the underlying operating system firewall service, either
enable and configure the necessary inbound ports or
stop and completely disable the firewall service.
- Deployment Process
The primary steps for deploying this Rancher Kubernetes Engine Kubernetes are:
NoteInstalling Rancher Kubernetes Engine requires a client system (i.e. admin workstation) that has been configured with kubectl.
Download the Rancher Kubernetes Engine binary according to the instructions on product documentation page, then follow the directions on that page, but with the following exceptions:
Create the cluster.yml file with the command
rke config
NoteSee product documentation for example-yamls and config-options for detailed examples and descriptions of the cluster.yml parameters.
It is recommended to create a unique SSH key for this Rancher Kubernetes Engine cluster with the command
ssh-keygen
Provide the path to that key for the option "Cluster Level SSH Private Key Path"
The option "Number of Hosts" refers to the number of hosts to configure at this time
Additional hosts can be added very easily after Rancher Kubernetes Engine cluster creation
For this implementation it is recommended to configure one or three hosts
Give all hosts the roles of "Control Plane", "Worker", and "etcd"
Answer "n" for the option "Enable PodSecurityPolicy"
Update the cluster.yml file before continuing with the step "Deploying Kubernetes with RKE"
If a load balancer has been deployed for the Rancher Kubernetes Engine control-plane nodes, update the cluster.yml file before deploying Rancher Kubernetes Engine to include the IP address or FQDN of the load balancer. The appropriate location is under authentication.sans. For example:
LB_IP_Host=""
authentication: strategy: x509 sans: ["${LB_IP_Host}"]
Verify password-less SSH is available from the admin workstation to each of the cluster hosts as the user specified in the cluster.yml file
When ready, run
rke up
to create the RKE clusterAfter the
rke up
command completes, the RKE cluster will continue the Kubernetes installation processMonitor the progress of the installation:
Export the variable KUBECONFIG to the absolute path name of the kube_config_cluster.yml file. I.e.
export KUBECONFIG=~/rke-cluster/kube_config_cluster.yml
Run the command:
watch -c "kubectl get deployments -A"
The cluster deployment is complete when elements of all the deployments show at least "1" as "AVAILABLE"
Use Ctrl+c to exit the watch loop after all deployment pods are running
TipTo address Availability and possible scaling to a multiple node cluster, etcd is enabled instead of using the default SQLite datastore.
- Deployment Consideration(s)
To further optimize deployment factors, leverage the following practices:
A full high-availability Rancher Kubernetes Engine cluster is recommended for production workloads. For this use case, two additional hosts should be added; for a total of three. All three hosts will perform the roles of control-plane, etcd, and worker.
Deploy the same operating system on the new compute platform nodes, and prepare them in the same way as the first node
Update the cluster.yml file to include the addional node
Using a text editor, copy the information for the first node (found under the "nodes:" section)
The node information usually starts with "- address:" and ends with the start of another node entry, or the beginning of the "services: " section, i.e.
- address: 172.16.240.71 port: "22" internal_address: "" role: - controlplane - worker - etcd . . . labels: {} taints: []
Paste the information into the same section, once for each additional host
Update the pasted information, as appropriate, for each additional host
When the cluster.yml file is updated with the information specific to each node, run the command
rke up
Run the command:
watch -c "kubectl get deployments -A"
The cluster deployment is complete when elements of all the deployments show at least "1" as "AVAILABLE"
Use Ctrl+c to exit the watch loop after all deployment pods are running
After this successful deployment of the Rancher Kubernetes Engine solution, review the product documentation for details on how to directly use this Kubernetes cluster. Furthermore, by reviewing the SUSE Rancher product documentation this solution can also be:
imported (refer to subsection "Importing Existing Clusters"), then
managed (refer to subsection "Cluster Administration") and
accessed (refer to subsection "Cluster Access") to address orchestration of workloads, maintaining security and many more functions are readily available.