aws-terraform-kubernetes | Kubernetes Cluster Provisioner | Infrastructure Automation library
kandi X-RAY | aws-terraform-kubernetes Summary
kandi X-RAY | aws-terraform-kubernetes Summary
Kubernetes Cluster Provisioner (Terraform + AWS + Kubespray)
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Top functions reviewed by kandi - BETA
- Read config file .
- Add an instance to the region .
- Add an elasticache cluster to the inventory .
- Add an RDS instance to the inventory .
- Add an ElastiCache node to the inventory .
- Generate host_info dictionary from describe_dict .
- Add an ElastiCache replication group to the inventory .
- Convert an instance into a dictionary .
- Initialize instance variables .
- Returns all the instances in the given region .
aws-terraform-kubernetes Key Features
aws-terraform-kubernetes Examples and Code Snippets
Community Discussions
Trending Discussions on Infrastructure Automation
QUESTION
I have an RDS DB instance (Aurora PostgreSQL) setup in my AWS account. This was created manually using AWS Console. I now want to create CloudFormation template Yaml for that DB, which I can use to create the DB later if needed. That will also help me replicate the DB in another environment. I would also use that as part of my Infrastructure automation.
...ANSWER
Answered 2020-Jun-05 at 00:59Unfortunately, there is no such functionality provided by AWS.
However, you mean hear about two options that people could wrongfully recommend.
CloudFormer is a template creation beta tool that creates an AWS CloudFormation template from existing AWS resources in your account. You select any supported AWS resources that are running in your account, and CloudFormer creates a template in an Amazon S3 bucket.
Although it sounds good, the tool is no longer maintained and its not reliable (for years in beta).
Importing Existing Resources Into a Stack
Often people mistakenly think that this "generates yaml" for you from existing resources. The truth is that it does not generate template files for you. You have to write your own template which matches your resource exactly, before you can import any resource under control to CloudFormation stack.
Your only options is to manually write the template for the RDS and import it, or look for an external tools that could reverse-engineer yaml templates from existing resources.
QUESTION
I'm struggling to set up a CI process for a web application in Azure. I'm used to deploying built code directly into Web Apps in Azure but decided to use docker this time.
In the build pipeline, I build the docker images and push them to an Azure Container Registry, tagged with the latest build number. In the release pipeline (which has DEV, TEST and PROD), I need to deploy those images to the Web Apps of each environment. There are 2 relevant tasks available in Azure releases: "Azure App Service deploy" and "Azure Web App for Containers". Neither of these allow the image source for the Web App to be set to Azure Conntainer Registry. Instead they take custom registry/repository names and set the image source in the Web App to Private Registry, which then requires login and password. I'm also deploying all Azure resources using ARM templates so I don't like the idea of configuring credentials when the 2 resources (the Registry and the Web App) are integrated already. Ideally, I would be able to set the Web App to use the repository and tag in Azure Container Registry that I specify in the release. I even tried to manually configure the Web Apps first with specific repositories and tags, and then tried to change the tags used by the Web Apps with the release (with the tasks I mentioned) but it didn't work. The tags stay the same.
Another option I considered was to configure all Web Apps to specific and permanent repositories and tags (e.g. "dev-latest") from the start (which doesn't fit well with ARM deployments since the containers need to exist in the Registry before the Web Apps can be configured so my infrastructure automation is incomplete), enable "Continuous Deployment" in the Web Apps and then tag the latest pushed repositories accordingly in the release so they would be picked up by Web Apps. I could not find a reasoble way to add tags to existing repositories in the Registry.
What is Azure best practice for CI with containerised web apps? How do people actually build their containers and then deploy them to each environment?
...ANSWER
Answered 2020-Mar-16 at 08:59Just set up a CI pipeline for building an image and pushing it to a container registry.
You could then use both Azure App Service deploy and Azure Web App for Containers task to handle the deploy.
The Azure WebApp Container task similar to other built-in Azure tasks, requires an Azure service connection as an input. The Azure service connection stores the credentials to connect from Azure Pipelines or Azure DevOps Server to Azure.
I'm also deploying all Azure resources using ARM templates so I don't like the idea of configuring credentials when the 2 resources (the Registry and the Web App)
You could also be able to Deploy Azure Web App for Containers with ARM and Azure DevOps.
How do people actually build their containers and then deploy them to each environment?
Kindly take a look at below blogs and official doc which may be helpful:
Community Discussions, Code Snippets contain sources that include Stack Exchange Network
Vulnerabilities
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Install aws-terraform-kubernetes
All steps will be conducted under Docker container for beginners. Export your own AWS Access / Secret keys. Initialize terraform and generate your SSH key pair for aws_key_pair.
All steps will be conducted under Docker container for beginners. # docker run -it --name terraform-aws-kube -h terraform-aws-kube ubuntu:16.04
Install required packages. $ apt update && apt install git python python-pip unzip wget vim -y && \ git clone https://github.com/alicek106/aws-terraform-kubernetes.git && \ cd aws-terraform-kubernetes/terraform
Download terraform binary. $ wget https://releases.hashicorp.com/terraform/0.11.13/terraform_0.11.13_linux_amd64.zip && \ unzip terraform_0.11.13_linux_amd64.zip && \ rm terraform_0.11.13_linux_amd64.zip && \ mv terraform /usr/bin && chmod +x /usr/bin/terraform
Export your own AWS Access / Secret keys $ export AWS_ACCESS_KEY_ID=<Your Access Key in AWS> $ export AWS_SECRET_ACCESS_KEY=<Your Access Key in Secret>
Initialize terraform and generate your SSH key pair for aws_key_pair $ terraform init && ssh-keygen -t rsa -N "" -f ../keys/tf-kube
Adjust the number of etcd, worker, and master nodes using Step 2 as shown below.
Create all objects in AWS. It will trigger to create VPC, Subnet, EC2 instances, etc. $ terraform apply
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