argocd-autopilot
HomeBrew
argocd-autopilot | HomeBrew | |
---|---|---|
22 | 1,284 | |
844 | 39,552 | |
2.5% | 1.2% | |
7.6 | 10.0 | |
5 days ago | 1 day ago | |
Go | Ruby | |
Apache License 2.0 | BSD 2-clause "Simplified" License |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
argocd-autopilot
- Setup Argocd-Autopilot from scratch
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Is there a better way?
# get the nodes in the cluster data "proxmox_virtual_environment_nodes" "proxmox_nodes" {} # VM Definition resource "proxmox_virtual_environment_vm" "example" { count = var.vm_count name = count.index + 1 <= var.vm_masters ? "${var.vm_name}-master-${format("%02d", count.index + 1)}" : "${var.vm_name}-worker-${format("%02d", count.index - (var.vm_masters - 1))}" node_name = data.proxmox_virtual_environment_nodes.proxmox_nodes.names[count.index % length(data.proxmox_virtual_environment_nodes.proxmox_nodes.names)] vm_id = count.index + 1 <= var.vm_masters ? var.vm_proxmox_id + count.index : var.vm_proxmox_id + count.index + (var.vm_proxmox_id_offset - var.vm_masters) tags = sort(concat(var.vm_proxmox_tags, [count.index + 1 <= var.vm_masters ? "master" : "worker"] )) agent { enabled = true trim = true } cpu { sockets = var.vm_sockets cores = var.vm_cores } memory { dedicated = count.index + 1 <= var.vm_masters ? var.vm_mem_master : var.vm_mem_worker } disk { interface = "scsi0" datastore_id = var.clone_target_local ? var.clone_target_datastore_local : var.clone_target_datastore_nfs ssd = true size = count.index + 1 <= var.vm_masters ? var.vm_disk_size_master : var.vm_disk_size_worker iothread = true discard = "on" } network_device { model = "virtio" mac_address = count.index + 1 <= var.vm_masters ? "${var.net_mac_address_base}AA:${format("%02d", count.index)}" : "${var.net_mac_address_base}BB:${format("%02d", count.index - var.vm_masters)}" # vlan_id = var.net_vlan_id # Not needed since using dedicated interface bridge = var.net_bridge } serial_device {} # clone information clone { vm_id = var.clone_target_local ? var.clone_vm_id + (count.index % var.vm_masters) : var.clone_vm_id datastore_id = var.clone_target_local ? var.clone_target_datastore_local : var.clone_target_datastore_nfs node_name = var.clone_target_local ? data.proxmox_virtual_environment_nodes.proxmox_nodes.names[count.index % length(data.proxmox_virtual_environment_nodes.proxmox_nodes.names)]: data.proxmox_virtual_environment_nodes.proxmox_nodes.names[0] } # had to add a wait for agent to come alive provisioner "remote-exec" { inline = [ "sudo cloud-init status --wait", "sudo systemctl start qemu-guest-agent", ] connection { type = "ssh" agent = false port = 22 host = element(element(self.ipv4_addresses, index(self.network_interface_names, "eth0")), 0) private_key = file(var.public_key_path) user = var.vm_username } } } # Create file for ansible inventory resource "local_file" "k3s_file" { content = templatefile( "${path.module}/templates/inventory_ansible.tftpl", { ansible_masters = "${join("\n", [for vm in slice(proxmox_virtual_environment_vm.example, 0, var.vm_masters) : join("", [vm.ipv4_addresses[1][0] ])])}" ansible_nodes = "${join("\n", [for vm in slice(proxmox_virtual_environment_vm.example, var.vm_masters , var.vm_count) : join("", [vm.ipv4_addresses[1][0] ])])}" } ) filename = "${path.module}/../ansible-k3s/inventory/k3s-cluster/hosts.ini" } #connecting to the Ansible control node and call ansible playbook to build the k3s cluster resource "null_resource" "call-ansible" { provisioner "local-exec" { command = "ANSIBLE_HOST_KEY_CHECKING=False ansible-playbook ${path.module}/../ansible-k3s/site.yml -i ${path.module}/../ansible-k3s/inventory/k3s-cluster/hosts.ini" } depends_on = [ local_file.k3s_file ] } #Copy the kubectl file locally so we can issue commands against the cluster resource "null_resource" "copy-kubeconfig" { provisioner "local-exec" { command = "scp -o 'StrictHostKeyChecking no' seb@${proxmox_virtual_environment_vm.example[0].ipv4_addresses[1][0]}:~/.kube/config ~/.kube/config " } depends_on = [ null_resource.call-ansible ] } #bootstrap the cluster with argocd-autopilot resource "null_resource" "argocd-autopilot" { provisioner "local-exec" { command = ( var.first_install ? "argocd-autopilot repo bootstrap --repo ${var.github_repo} -t ${var.github_token} --app https://github.com/argoproj-labs/argocd-autopilot/manifests/ha" : "argocd-autopilot repo bootstrap --recover --app ${var.github_repo}.git/bootstrap/argo-cd" ) } depends_on = [ null_resource.copy-kubeconfig ] }
- Setting up ArgoCD from scratch
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Declarative GitOps for...my ArgoCD itself?
I use Argo CD Autopilot which bootstraps Argo CD in a self-managing structure. If nothing else, copy the repo structure https://github.com/argoproj-labs/argocd-autopilot
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How to Install and Upgrade Argo CD
We use the same approach internally and we fully open-sourced our solution at https://argocd-autopilot.readthedocs.io/en/stable/
- Argocd kustomize repository structure
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Argo CD for Beginners 🐙
I recommend utilising Autopilot a companion project that not only installs Argo CD but also commits all configurations to git so Argo CD can maintain itself using GitOps.
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ArgoCD installation
Check https://argocd-autopilot.readthedocs.io/en/stable/ It is an installer that does exactly that. It installs ArgoCD, sets it up to manage itself and offers a suggested bootstrap for your applications
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How to set up a repo of repos for argo gitops?
Checkout the ArgoCD autopilot if you're using kustomize rather than helm
- Suggestion for Gitlab pipelines with ArgoCD
HomeBrew
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Essential Tools & Technologies for New Developers
Before we start installing anything, if you are a Mac user, you need to install homebrew, a package manager for Mac that will help you install software quickly and easily from this article.
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How to set up a new project using Yarn
First, we are going to need Node.js. I use nodenv to manage multiple Node.js installations on my machine. The easiest way to install it on a Mac is to use Homebrew (check their Installation documentation if you’re on a different platform):
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Tools that keep me productive
Homebrew - The Missing Package Manager for macOS (or Linux)
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Top Homebrew Alternative: ServBay Becomes the Go-To for Developers
Homebrew is a highly popular package manager on macOS and Linux systems, enabling users to easily install, update, and uninstall command-line tools and applications. Its design philosophy focuses on simplifying the software installation process on macOS, eliminating the need for manual downloads and compilations of software packages.
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Software Engineering Workflow
Homebrew - package manager for linux-based OSs.
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Simulate your first Lightning transaction on the Bitcoin regtest network Part 1 (MacOS)
Package Manager: Homebrew
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Tools for Linux Distro Hoppers
Hopping from one distro to another with a different package manager might require some time to adapt. Using a package manager that can be installed on most distro is one way to help you get to work faster. Flatpak is one of them; other alternative are Snap, Nix or Homebrew. Flatpak is a good starter, and if you have a bunch of free time, I suggest trying Nix.
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SQLite Schema Diagram Generator
Are you using SQLite that ships with macOS, or SQLite installed from homebrew?
I had a different problem in the past with the SQLite that ships with macOS, and have been using SQLite from homebrew since.
So if it’s the one that comes with macOS that gives you this problem that you are having, try using SQLite from homebrew instead.
https://brew.sh/
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How to install (Ubuntu 22.10 VM) vagrant on Mac M1 ship using QEMU
Before we begin, make sure you have Homebrew installed on your Mac. Homebrew is a package manager that makes it easy to install software and dependencies. You can install Homebrew by following the instructions on their website: https://brew.sh/
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Perfect Elixir: Environment Setup
I’m on MacOS and erlang.org, elixir-lang.org, and postgresql.org all suggest installation via Homebrew, which is a very popular package manager for MacOS.
What are some alternatives?
argocd-example-apps - Example Apps to Demonstrate Argo CD
spack - A flexible package manager that supports multiple versions, configurations, platforms, and compilers.
argo-cd - Declarative Continuous Deployment for Kubernetes
asdf - Extendable version manager with support for Ruby, Node.js, Elixir, Erlang & more
argocd-image-updater - Automatic container image update for Argo CD
Visual Studio Code - Visual Studio Code
Helm-Chart-Boilerplates - Example implementations of the universal helm charts
winget-cli - WinGet is the Windows Package Manager. This project includes a CLI (Command Line Interface), PowerShell modules, and a COM (Component Object Model) API (Application Programming Interface).
website - 🌐 Source code for OpenGitOps website
osxfuse - FUSE extends macOS by adding support for user space file systems
gitops-workloads-demo - Demonstrate how Argo ApplicationSets work
Chocolatey - Chocolatey - the package manager for Windows