Iteration Zero is the name of the process of installing and setting up the toolkit.
The fast-start install uses all the default values provided by the modules to deliver a generic install of the Toolkit, but as you adopt the Toolkit you may want to customize the Iteration Zero process.
The Iteration Zero logic is stored in two repositories:
The modules that provide logic to provision individual components of the infrastructure. These modules cover one of three different categories: infrastructure (e.g. create a kubernetes cluster), cloud service, or software deployed and configured into a cluster. https://github.com/cloud-native-toolkit/garage-terraform-modules
The logic that makes use of the modules with specific configuration parameters used to deliver an entire solution. https://github.com/cloud-native-toolkit/ibm-garage-iteration-zero
This guide will walk through the various files that make up the Infrastructure as Code components and how to customize them. The Installation Overview walks through how to perform an install with the Iteration Zero scripts.
Iteration Zero terraform scripts¶
The Iteration Zero terraform scripts make use of the modules to provision and prepare an environment. The logic is provided as
stages that can be removed and added as needed.
The files in the
stages-crc folders provide Terraform files that make use of external Terraform modules to provision resources. The different resources are logically grouped with stage numbers and names for the resource provided. All of the stages are processed by the Terraform apply at the same time and Terraform works out the sequencing of execution based on the dependencies between the modules.
The Iteration Zero application comes with a pre-defined set of software and services that will be provisioned. For more advanced situations, that set of modules can be easily customized.
Removing a stage
To remove a stage, simply delete or move a file out of the stages directory
Adding a stage
To add a stage, define a new stage file and reference the desired module. Any necessary variables can be referenced from the base variables or the output from the other modules.
Modifying a stage
Any of the values for the variables in
variables.tfor in the stage files can be updated to change the results of what is built
There a number of files used to provide the overall configuration for the environment that will be provisioned.
Template file for the credentials.properties
File containing the API key and Classic Infrastructure credentials needed to run the scripts
General configuration values for the environment, like
Configuration values for the IBM Cloud vlan settings needed for the creation of a new cluster
Defined variables for the various stages and, in some cases, default values.
Launches a container image from the Docker Hub registry that contains all the tools necessary to run the terraform scripts and opens into a shell where the Terraform logic can be run
Based on the values configured in
environment.tfvars, this script creates the
terraform/workspacedirectory, copies the appropriate Terraform files into that directory, then applies the Terraform scripts
Applies the Terraform scripts. This script is copied into the
terraform/workspacedirectory during the
runTerraform.shlogic. It is then available to rerun the Terraform logic without having to set the
terraform/workspacedirectory up again.
Helper script that destroys the IBM Cloud cluster to clean up the environment
Helper script that destroys services that have been provisioned in IBM Cloud. It works against the
resource groupthat has been configured in the
environment.tfvarsfile. Any values passed in as arguments will be used to do a regular expression match to exclude services from the list of those that will be destroyed.
The terraform modules project contains the building block components that can be used to create a provisioned environment. The modules are organized into one of three major categories:
Modules that provision infrastructure (cluster and/or services) into a managed cloud environment
Modules that provision infrastructure into a self-managed environment (e.g. software deployed into a cluster)
Modules that can be applied independent of the environment (e.g. software that is installed into a running kubernetes environment)
A listing of the modules is shown below: