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299 lines
12 KiB
Markdown
299 lines
12 KiB
Markdown
# Maintenance
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## Best Practices
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* Run multiple Kubernetes clusters. Run across platforms. Plan for regional and cloud outages.
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* Require applications be platform agnostic. Moving an application between a Kubernetes AWS cluster and a Kubernetes bare-metal cluster should be normal.
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* Strive to make single-cluster outages tolerable. Practice performing failovers.
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* Strive to make single-cluster outages a non-event. Load balance applications between multiple clusters, automate failover behaviors, and adjust alerting behaviors.
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## Versioning
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Typhoon provides tagged releases to allow clusters to be versioned using ordinary Terraform configs.
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```
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module "yavin" {
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source = "git::https://github.com/poseidon/typhoon//google-cloud/fedora-coreos/kubernetes?ref=v1.24.4"
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...
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}
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module "mercury" {
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source = "git::https://github.com/poseidon/typhoon//bare-metal/flatcar-linux/kubernetes?ref=v1.24.4"
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...
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}
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```
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Main is updated regularly, so it is recommended to [pin](https://www.terraform.io/docs/modules/sources.html) modules to a [release tag](https://github.com/poseidon/typhoon/releases) or [commit](https://github.com/poseidon/typhoon/commits/main) hash. Pinning ensures `terraform get --update` only fetches the desired version.
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## Terraform Versions
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Typhoon modules support Terraform v0.13.x and higher. Poseidon publishes [providers](/topics/security/#terraform-providers) to the Terraform Provider Registry for automatic install via `terraform init`.
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| Typhoon Release | Terraform version |
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|-------------------|---------------------|
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| v1.21.2 - ? | v0.13.x, v0.14.4+, v0.15.x, v1.0.x |
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| v1.21.1 - v1.21.1 | v0.13.x, v0.14.4+, v0.15.x |
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| v1.20.2 - v1.21.0 | v0.13.x, v0.14.4+ |
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| v1.20.0 - v1.20.2 | v0.13.x |
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| v1.18.8 - v1.19.4 | v0.12.26+, v0.13.x |
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| v1.15.0 - v1.18.8 | v0.12.x |
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| v1.10.3 - v1.15.0 | v0.11.x |
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| v1.9.2 - v1.10.2 | v0.10.4+ or v0.11.x |
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| v1.7.3 - v1.9.1 | v0.10.x |
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| v1.6.4 - v1.7.2 | v0.9.x |
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## Cluster Upgrades
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Typhoon recommends upgrading clusters using a blue-green replacement strategy and migrating workloads.
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1. Launch new (candidate) clusters from tagged releases
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2. Apply workloads from existing cluster(s)
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3. Evaluate application health and performance
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4. Migrate application traffic to the new cluster
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5. Compare metrics and delete old cluster when ready
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Blue-green replacement reduces risk for clusters running critical applications. Candidate clusters allow baseline properties of clusters to be assessed (e.g. pod-to-pod bandwidth). Applying application workloads allows health to be assessed before being subjected to traffic (e.g. detect any changes in Kubernetes behavior between versions). Migration to the new cluster can be controlled according to requirements. Migration may mean updating DNS records to resolve the new cluster's ingress or may involve a load balancer gradually shifting traffic to the new cluster "backend". Retain the old cluster for a time to compare metrics or for fallback if issues arise.
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Blue-green replacement provides some subtler benefits as well:
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* Encourages investment in tooling for traffic migration and failovers. When a cluster incident arises, shifting applications to a healthy cluster will be second nature.
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* Discourages reliance on in-place opaque state. Retain confidence in your ability to create infrastructure from scratch.
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* Allows Typhoon to make architecture changes between releases and eases the burden on Typhoon maintainers. By contrast, distros promising in-place upgrades get stuck with their mistakes or require complex and error-prone migrations.
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### Bare-Metal
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Typhoon bare-metal clusters are provisioned by a PXE-enabled network boot environment and a [Matchbox](https://github.com/poseidon/matchbox) service. To upgrade, re-provision machines into a new cluster.
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Failover application workloads to another cluster (varies).
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```
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kubectl config use-context other-context
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kubectl apply -f mercury -R
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# DNS or load balancer changes
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```
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Power off bare-metal machines and set their next boot device to PXE.
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```
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ipmitool -H node1.example.com -U USER -P PASS power off
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ipmitool -H node1.example.com -U USER -P PASS chassis bootdev pxe
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```
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Delete or comment the Terraform config for the cluster.
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```
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- module "mercury" {
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- source = "git::https://github.com/poseidon/typhoon//bare-metal/flatcar-linux/kubernetes"
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- ...
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-}
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```
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Apply to delete old provisioning configs from Matchbox.
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```
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$ terraform apply
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Apply complete! Resources: 0 added, 0 changed, 55 destroyed.
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```
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Re-provision a new cluster by following the bare-metal [tutorial](../fedora-coreos/bare-metal.md#cluster).
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### Cloud
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Create a new cluster following the tutorials. Failover application workloads to the new cluster (varies).
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```
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kubectl config use-context other-context
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kubectl apply -f mercury -R
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# DNS or load balancer changes
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```
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Once you're confident in the new cluster, delete the Terraform config for the old cluster.
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```
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- module "yavin" {
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- source = "git::https://github.com/poseidon/typhoon//google-cloud/flatcar-linux/kubernetes"
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- ...
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-}
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```
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Apply to delete the cluster.
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```
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$ terraform apply
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Apply complete! Resources: 0 added, 0 changed, 55 destroyed.
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```
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### Alternatives
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#### In-place Edits
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Typhoon uses a static pod Kubernetes control plane which allows certain manifest upgrades to be performed in-place. Components like `kube-apiserver`, `kube-controller-manager`, and `kube-scheduler` are run as static pods. Components `flannel`/`calico`, `coredns`, and `kube-proxy` are scheduled on Kubernetes and can be edited via `kubectl`.
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In certain scenarios, in-place edits can be useful for quickly rolling out security patches (e.g. bumping `coredns`) or prioritizing speed over the safety of a proper cluster re-provision and transition.
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!!! note
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Rarely, we may test certain security in-place edits and mention them as an option in release notes.
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!!! warning
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Typhoon does not support or document in-place edits as an upgrade strategy. They involve inherent risks and we choose not to make recommendations or guarentees about the safety of different in-place upgrades. Its explicitly a non-goal.
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#### Node Replacement
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Typhoon supports multi-controller clusters, so it is possible to upgrade a cluster by deleting and replacing nodes one by one.
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!!! warning
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Typhoon does not support or document node replacement as an upgrade strategy. It limits Typhoon's ability to make infrastructure and architectural changes between tagged releases.
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## Node Configuration Updates
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Typhoon worker instance groups (default workers and [worker pools](../advanced/worker-pools.md)) on AWS and Google Cloud gradually rolling replace worker instances when configuration changes are applied.
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### AWS
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On AWS, worker instances belong to an auto-scaling group. When an auto-scaling group's launch configuration changes, an AWS [Instance Refresh](https://docs.aws.amazon.com/autoscaling/ec2/userguide/asg-instance-refresh.html) gradually replaces worker instances.
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Instance refresh creates surge instances, waits for a warm-up period, then deletes old instances.
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```diff
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module "tempest" {
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source = "git::https://github.com/poseidon/typhoon//aws/VARIANT/kubernetes?ref=VERSION"
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# AWS
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cluster_name = "tempest"
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...
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# optional
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worker_count = 2
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- worker_type = "t3.small"
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+ worker_type = "t3a.small"
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# change from on-demand to spot
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+ worker_price = "0.0309"
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# default is 30GB
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+ disk_size = 50
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# change worker snippets
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+ worker_snippets = [
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+ file("butane/feature.yaml"),
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+ ]
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}
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```
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Applying edits to most worker fields will start an instance refresh:
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* `worker_type`
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* `disk_*`
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* `worker_price` (i.e. spot)
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* `worker_target_groups`
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* `worker_snippets`
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However, changing `os_stream`/`os_channel` or new AMIs becoming available will NOT change the launch configuration or trigger an Instance Refresh. This allows Fedora CoreOS or Flatcar Linux to auto-update themselves via reboots and avoids unexpected terraform diffs for new AMIs.
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!!! note
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Before Typhoon v1.24.4, worker nodes only used new launch configurations when replaced manually (or due to failure). If you must change node configuration manually, it's still possible. Create a new [worker pool](../advanced/worker-pools.md), then scale down the old worker pool as desired.
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### Google Cloud
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On Google Cloud, worker instances belong to a [managed instance group](https://cloud.google.com/compute/docs/instance-groups#managed_instance_groups). When a group's launch template changes, a [rolling update](https://cloud.google.com/compute/docs/instance-groups/rolling-out-updates-to-managed-instance-groups) gradually replaces worker instances.
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The rolling update creates surge instances, waits for instances to be healthy, then deletes old instances.
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```diff
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module "yavin" {
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source = "git::https://github.com/poseidon/typhoon//google-cloud/VARIANT/kubernetes?ref=VERSION"
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# Google Cloud
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cluster_name = "yavin"
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...
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# optional
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worker_count = 2
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+ worker_type = "n2-standard-2"
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+ worker_preemptible = true
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# default is 30GB
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+ disk_size = 50
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# change worker snippets
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+ worker_snippets = [
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+ file("butane/feature.yaml"),
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+ ]
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}
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```
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Applying edits to most worker fields will start an instance refresh:
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* `worker_type`
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* `disk_*`
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* `worker_preemptible` (i.e. spot)
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* `worker_snippets`
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However, changing `os_stream`/`os_channel` or new compute images becoming available will NOT change the launch template or update instances. This allows Fedora CoreOS or Flatcar Linux to auto-update themselves via reboots and avoids unexpected terraform diffs for new AMIs.
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!!! note
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Before Typhoon v1.24.4, worker nodes only used new launch templates when replaced manually (or due to failure). If you must change node configuration manually, it's still possible. Create a new [worker pool](../advanced/worker-pools.md), then scale down the old worker pool as desired.
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## Upgrade poseidon/ct
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The [poseidon/ct](https://github.com/poseidon/terraform-provider-ct) Terraform provider plugin parses, validates, and converts Butane Configs to Ignition user-data for provisioning instances. Since Typhoon v1.12.2+, the plugin can be updated in-place so that on apply, only workers will be replaced.
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Update the version of the `ct` plugin in each Terraform working directory. Typhoon clusters managed in the working directory **must** be v1.12.2 or higher.
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```diff
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provider "ct" {}
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terraform {
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required_providers {
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ct = {
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source = "poseidon/ct"
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- version = "0.10.0"
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+ version = "0.11.0"
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}
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...
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}
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}
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```
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Run init and plan to check that no diff is proposed for the controller nodes (a diff would destroy cluster state).
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```
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terraform init
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terraform plan
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```
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Apply the change. If worker nodes' user-data is changed and workers will be replaced. Rollout happens slightly differently on each platform:
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#### AWS
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See AWS node [config updates](#aws).
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#### Azure
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Azure edits the worker scale set in-place instantly. Manually terminate workers to create replacement workers using the new user-data.
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#### Bare-Metal
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No action is needed. Bare-Metal machines do not re-PXE unless explicitly made to do so.
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#### DigitalOcean
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DigitalOcean destroys existing worker nodes and DNS records, then creates new workers and DNS records. DigitalOcean lacks a "managed group" notion. For worker droplets to join the cluster, you **must** taint the secret copying step to indicate it must be repeated to add the kubeconfig to new workers.
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```
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# old workers destroyed, new workers created
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terraform apply
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# add kubeconfig to new workers
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terraform state list | grep null_resource
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terraform taint module.nemo.null_resource.copy-worker-secrets[N]
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terraform apply
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```
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Expect downtime.
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#### Google Cloud
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See Google Cloud node [config updates](#google-cloud).
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