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The ungleich kubernetes infrastructure » History » Version 148

Nico Schottelius, 10/01/2022 08:27 AM

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h1. The ungleich kubernetes infrastructure and ungleich kubernetes manual
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{{toc}}
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h2. Status
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This document is **pre-production**.
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This document is to become the ungleich kubernetes infrastructure overview as well as the ungleich kubernetes manual.
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h2. k8s clusters
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| Cluster            | Purpose/Setup     | Maintainer | Master(s)                     | argo                                                   | v4 http proxy | last verified |
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| c0.k8s.ooo         | Dev               | -          | UNUSED                        |                                                        |               |    2021-10-05 |
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| c1.k8s.ooo         | retired           |            | -                             |                                                        |               |    2022-03-15 |
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| c2.k8s.ooo         | Dev p7 HW         | Nico       | server47 server53 server54    | "argo":https://argocd-server.argocd.svc.c2.k8s.ooo     |               |    2021-10-05 |
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| c3.k8s.ooo         | retired           | -          | -                             |                                                        |               |    2021-10-05 |
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| c4.k8s.ooo         | Dev2 p7 HW        | Jin-Guk    | server52 server53 server54    |                                                        |               |             - |
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| c5.k8s.ooo         | retired           |            | -                             |                                                        |               |    2022-03-15 |
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| c6.k8s.ooo         | Dev p6 VM Jin-Guk | Jin-Guk    |                               |                                                        |               |               |
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| [[p5.k8s.ooo]]     | production        |            | server34 server36 server38    | "argo":https://argocd-server.argocd.svc.p5.k8s.ooo     | -             |               |
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| [[p5-cow.k8s.ooo]] | production        | Nico       | server47 server51 server55    | "argo":https://argocd-server.argocd.svc.p5-cow.k8s.ooo |               |    2022-08-27 |
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| [[p6.k8s.ooo]]     | production        |            | server67 server69 server71    | "argo":https://argocd-server.argocd.svc.p6.k8s.ooo     | 147.78.194.13 |    2021-10-05 |
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| [[p10.k8s.ooo]]    | production        |            | server63 server65 server83    | "argo":https://argocd-server.argocd.svc.p10.k8s.ooo    | 147.78.194.12 |    2021-10-05 |
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| [[k8s.ge.nau.so]]  | development       |            | server107 server108 server109 | "argo":https://argocd-server.argocd.svc.k8s.ge.nau.so  |               |               |
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| [[dev.k8s.ooo]]    | development       |            | server110 server111 server112 | "argo":https://argocd-server.argocd.svc.dev.k8s.ooo    | -             |    2022-07-08 |
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| [[server121.k8s.ooo]] | production | Nico | server121 | | | 2022-09-06 |
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h2. General architecture and components overview
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* All k8s clusters are IPv6 only
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* We use BGP peering to propagate podcidr and serviceCidr networks to our infrastructure
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* The main public testing repository is "ungleich-k8s":https://code.ungleich.ch/ungleich-public/ungleich-k8s
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** Private configurations are found in the **k8s-config** repository
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h3. Cluster types
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| **Type/Feature**            | **Development**                | **Production**         |
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| Min No. nodes               | 3 (1 master, 3 worker)         | 5 (3 master, 3 worker) |
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| Recommended minimum         | 4 (dedicated master, 3 worker) | 8 (3 master, 5 worker) |
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| Separation of control plane | optional                       | recommended            |
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| Persistent storage          | required                       | required               |
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| Number of storage monitors  | 3                              | 5                      |
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h2. General k8s operations
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h3. Cheat sheet / external great references
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* "kubectl cheatsheet":https://kubernetes.io/docs/reference/kubectl/cheatsheet/
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h3. Allowing to schedule work on the control plane / removing node taints
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* Mostly for single node / test / development clusters
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* Just remove the master taint as follows
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<pre>
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kubectl taint nodes --all node-role.kubernetes.io/master-
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kubectl taint nodes --all node-role.kubernetes.io/control-plane-
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</pre>
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You can check the node taints using @kubectl describe node ...@
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h3. Get the cluster admin.conf
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* On the masters of each cluster you can find the file @/etc/kubernetes/admin.conf@
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* To be able to administrate the cluster you can copy the admin.conf to your local machine
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* Multi cluster debugging can very easy if you name the config ~/cX-admin.conf (see example below)
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<pre>
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% scp root@server47.place7.ungleich.ch:/etc/kubernetes/admin.conf ~/c2-admin.conf
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% export KUBECONFIG=~/c2-admin.conf    
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% kubectl get nodes
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NAME       STATUS                     ROLES                  AGE   VERSION
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server47   Ready                      control-plane,master   82d   v1.22.0
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server48   Ready                      control-plane,master   82d   v1.22.0
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server49   Ready                      <none>                 82d   v1.22.0
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server50   Ready                      <none>                 82d   v1.22.0
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server59   Ready                      control-plane,master   82d   v1.22.0
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server60   Ready,SchedulingDisabled   <none>                 82d   v1.22.0
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server61   Ready                      <none>                 82d   v1.22.0
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server62   Ready                      <none>                 82d   v1.22.0               
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</pre>
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h3. Installing a new k8s cluster
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* Decide on the cluster name (usually *cX.k8s.ooo*), X counting upwards
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** Using pXX.k8s.ooo for production clusters of placeXX
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* Use cdist to configure the nodes with requirements like crio
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* Decide between single or multi node control plane setups (see below)
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** Single control plane suitable for development clusters
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Typical init procedure:
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* Single control plane: @kubeadm init --config bootstrap/XXX/kubeadm.yaml@
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* Multi control plane (HA): @kubeadm init --config bootstrap/XXX/kubeadm.yaml --upload-certs@
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h3. Deleting a pod that is hanging in terminating state
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<pre>
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kubectl delete pod <PODNAME> --grace-period=0 --force --namespace <NAMESPACE>
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</pre>
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(from https://stackoverflow.com/questions/35453792/pods-stuck-in-terminating-status)
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h3. Listing nodes of a cluster
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<pre>
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[15:05] bridge:~% kubectl get nodes
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NAME       STATUS   ROLES                  AGE   VERSION
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server22   Ready    <none>                 52d   v1.22.0
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server23   Ready    <none>                 52d   v1.22.2
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server24   Ready    <none>                 52d   v1.22.0
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server25   Ready    <none>                 52d   v1.22.0
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server26   Ready    <none>                 52d   v1.22.0
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server27   Ready    <none>                 52d   v1.22.0
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server63   Ready    control-plane,master   52d   v1.22.0
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server64   Ready    <none>                 52d   v1.22.0
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server65   Ready    control-plane,master   52d   v1.22.0
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server66   Ready    <none>                 52d   v1.22.0
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server83   Ready    control-plane,master   52d   v1.22.0
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server84   Ready    <none>                 52d   v1.22.0
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server85   Ready    <none>                 52d   v1.22.0
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server86   Ready    <none>                 52d   v1.22.0
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</pre>
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h3. Removing / draining a node
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Usually @kubectl drain server@ should do the job, but sometimes we need to be more aggressive:
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<pre>
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kubectl drain --delete-emptydir-data --ignore-daemonsets serverXX
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</pre>
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h3. Readding a node after draining
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<pre>
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kubectl uncordon serverXX
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</pre>
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h3. (Re-)joining worker nodes after creating the cluster
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* We need to have an up-to-date token
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* We use different join commands for the workers and control plane nodes
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Generating the join command on an existing control plane node:
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<pre>
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kubeadm token create --print-join-command
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</pre>
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h3. (Re-)joining control plane nodes after creating the cluster
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* We generate the token again
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* We upload the certificates
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* We need to combine/create the join command for the control plane node
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Example session:
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<pre>
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% kubeadm token create --print-join-command
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kubeadm join p10-api.k8s.ooo:6443 --token xmff4i.ABC --discovery-token-ca-cert-hash sha256:longhash 
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% kubeadm init phase upload-certs --upload-certs
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[upload-certs] Storing the certificates in Secret "kubeadm-certs" in the "kube-system" Namespace
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[upload-certs] Using certificate key:
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CERTKEY
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# Then we use these two outputs on the joining node:
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kubeadm join p10-api.k8s.ooo:6443 --token xmff4i.ABC --discovery-token-ca-cert-hash sha256:longhash --control-plane --certificate-key CERTKEY
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</pre>
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Commands to be used on a control plane node:
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<pre>
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kubeadm token create --print-join-command
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kubeadm init phase upload-certs --upload-certs
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</pre>
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Commands to be used on the joining node:
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<pre>
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JOINCOMMAND --control-plane --certificate-key CERTKEY
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</pre>
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SEE ALSO
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* https://stackoverflow.com/questions/63936268/how-to-generate-kubeadm-token-for-secondary-control-plane-nodes
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* https://blog.scottlowe.org/2019/08/15/reconstructing-the-join-command-for-kubeadm/
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h3. How to fix etcd does not start when rejoining a kubernetes cluster as a control plane
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If during the above step etcd does not come up, @kubeadm join@ can hang as follows:
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<pre>
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[control-plane] Creating static Pod manifest for "kube-apiserver"                                                              
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[control-plane] Creating static Pod manifest for "kube-controller-manager"                                                     
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[control-plane] Creating static Pod manifest for "kube-scheduler"                                                              
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[check-etcd] Checking that the etcd cluster is healthy                                                                         
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error execution phase check-etcd: etcd cluster is not healthy: failed to dial endpoint https://[2a0a:e5c0:10:1:225:b3ff:fe20:37
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8a]:2379 with maintenance client: context deadline exceeded                                                                    
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To see the stack trace of this error execute with --v=5 or higher         
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</pre>
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Then the problem is likely that the etcd server is still a member of the cluster. We first need to remove it from the etcd cluster and then the join works.
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To fix this we do:
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* Find a working etcd pod
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* Find the etcd members / member list
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* Remove the etcd member that we want to re-join the cluster
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<pre>
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# Find the etcd pods
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kubectl -n kube-system get pods -l component=etcd,tier=control-plane
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# Get the list of etcd servers with the member id 
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kubectl exec -n kube-system -ti ETCDPODNAME -- etcdctl --endpoints '[::1]:2379' --cacert /etc/kubernetes/pki/etcd/ca.crt --cert  /etc/kubernetes/pki/etcd/server.crt --key /etc/kubernetes/pki/etcd/server.key member list
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# Remove the member
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kubectl exec -n kube-system -ti ETCDPODNAME -- etcdctl --endpoints '[::1]:2379' --cacert /etc/kubernetes/pki/etcd/ca.crt --cert  /etc/kubernetes/pki/etcd/server.crt --key /etc/kubernetes/pki/etcd/server.key member remove MEMBERID
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</pre>
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Sample session:
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<pre>
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[10:48] line:~% kubectl -n kube-system get pods -l component=etcd,tier=control-plane
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NAME            READY   STATUS    RESTARTS     AGE
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etcd-server63   1/1     Running   0            3m11s
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etcd-server65   1/1     Running   3            7d2h
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etcd-server83   1/1     Running   8 (6d ago)   7d2h
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[10:48] line:~% kubectl exec -n kube-system -ti etcd-server65 -- etcdctl --endpoints '[::1]:2379' --cacert /etc/kubernetes/pki/etcd/ca.crt --cert  /etc/kubernetes/pki/etcd/server.crt --key /etc/kubernetes/pki/etcd/server.key member list
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356891cd676df6e4, started, server65, https://[2a0a:e5c0:10:1:225:b3ff:fe20:375c]:2380, https://[2a0a:e5c0:10:1:225:b3ff:fe20:375c]:2379, false
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371b8a07185dee7e, started, server63, https://[2a0a:e5c0:10:1:225:b3ff:fe20:378a]:2380, https://[2a0a:e5c0:10:1:225:b3ff:fe20:378a]:2379, false
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5942bc58307f8af9, started, server83, https://[2a0a:e5c0:10:1:3e4a:92ff:fe79:bb98]:2380, https://[2a0a:e5c0:10:1:3e4a:92ff:fe79:bb98]:2379, false
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[10:48] line:~% kubectl exec -n kube-system -ti etcd-server65 -- etcdctl --endpoints '[::1]:2379' --cacert /etc/kubernetes/pki/etcd/ca.crt --cert  /etc/kubernetes/pki/etcd/server.crt --key /etc/kubernetes/pki/etcd/server.key member remove 371b8a07185dee7e
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Member 371b8a07185dee7e removed from cluster e3c0805f592a8f77
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</pre>
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SEE ALSO
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* We found the solution using https://stackoverflow.com/questions/67921552/re-installed-node-cannot-join-kubernetes-cluster
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h3. Node labels (adding, showing, removing)
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Listing the labels:
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<pre>
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kubectl get nodes --show-labels
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</pre>
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Adding labels:
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<pre>
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kubectl label nodes LIST-OF-NODES label1=value1 
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</pre>
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For instance:
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<pre>
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kubectl label nodes router2 router3 hosttype=router 
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</pre>
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Selecting nodes in pods:
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<pre>
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apiVersion: v1
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kind: Pod
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...
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spec:
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  nodeSelector:
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    hosttype: router
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</pre>
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Removing labels by adding a minus at the end of the label name:
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<pre>
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kubectl label node <nodename> <labelname>-
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</pre>
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For instance:
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<pre>
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kubectl label nodes router2 router3 hosttype- 
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</pre>
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SEE ALSO
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* https://kubernetes.io/docs/tasks/configure-pod-container/assign-pods-nodes/
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* https://stackoverflow.com/questions/34067979/how-to-delete-a-node-label-by-command-and-api
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h3. Hardware Maintenance using ungleich-hardware
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Use the following manifest and replace the HOST with the actual host:
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<pre>
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apiVersion: v1
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kind: Pod
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metadata:
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  name: ungleich-hardware-HOST
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spec:
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  containers:
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  - name: ungleich-hardware
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    image: ungleich/ungleich-hardware:0.0.5
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    args:
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    - sleep
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    - "1000000"
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    volumeMounts:
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      - mountPath: /dev
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        name: dev
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    securityContext:
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      privileged: true
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  nodeSelector:
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    kubernetes.io/hostname: "HOST"
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  volumes:
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    - name: dev
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      hostPath:
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        path: /dev
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</pre>
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Also see: [[The_ungleich_hardware_maintenance_guide]]
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h3. Triggering a cronjob / creating a job from a cronjob
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To test a cronjob, we can create a job from a cronjob:
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<pre>
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kubectl create job --from=cronjob/volume2-daily-backup volume2-manual
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</pre>
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This creates a job volume2-manual based on the cronjob  volume2-daily
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h3. su-ing into a user that has nologin shell set
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Many times users are having nologin as their shell inside the container. To be able to execute maintenance commands within the
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container, we can use @su -s /bin/sh@ like this:
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<pre>
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su -s /bin/sh -c '/path/to/your/script' testuser
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</pre>
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Found on https://serverfault.com/questions/351046/how-to-run-command-as-user-who-has-usr-sbin-nologin-as-shell
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h3. How to print a secret value
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Assuming you want the "password" item from a secret, use:
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<pre>
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kubectl get secret SECRETNAME -o jsonpath="{.data.password}" | base64 -d; echo "" 
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</pre>
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h2. Calico CNI
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h3. Calico Installation
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* We install "calico using helm":https://docs.projectcalico.org/getting-started/kubernetes/helm
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* This has the following advantages:
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** Easy to upgrade
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** Does not require os to configure IPv6/dual stack settings as the tigera operator figures out things on its own
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Usually plain calico can be installed directly using:
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<pre>
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VERSION=v3.23.3
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helm repo add projectcalico https://docs.projectcalico.org/charts
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helm upgrade --install --namespace tigera calico projectcalico/tigera-operator --version $VERSION --create-namespace
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</pre>
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* Check the tags on https://github.com/projectcalico/calico/tags for the latest release
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h3. Installing calicoctl
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* General installation instructions, including binary download: https://projectcalico.docs.tigera.io/maintenance/clis/calicoctl/install
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To be able to manage and configure calico, we need to 
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"install calicoctl (we choose the version as a pod)":https://docs.projectcalico.org/getting-started/clis/calicoctl/install#install-calicoctl-as-a-kubernetes-pod
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<pre>
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kubectl apply -f https://docs.projectcalico.org/manifests/calicoctl.yaml
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</pre>
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Or version specific:
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<pre>
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kubectl apply -f https://github.com/projectcalico/calico/blob/v3.20.4/manifests/calicoctl.yaml
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# For 3.22
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kubectl apply -f https://projectcalico.docs.tigera.io/archive/v3.22/manifests/calicoctl.yaml
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</pre>
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And making it easier accessible by alias:
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<pre>
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alias calicoctl="kubectl exec -i -n kube-system calicoctl -- /calicoctl"
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</pre>
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h3. Calico configuration
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By default our k8s clusters "BGP peer":https://docs.projectcalico.org/networking/bgp
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with an upstream router to propagate podcidr and servicecidr.
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Default settings in our infrastructure:
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* We use a full-mesh using the @nodeToNodeMeshEnabled: true@ option
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* We keep the original next hop so that *only* the server with the pod is announcing it (instead of ecmp)
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* We use private ASNs for k8s clusters
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* We do *not* use any overlay
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After installing calico and calicoctl the last step of the installation is usually:
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<pre>
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calicoctl create -f - < calico-bgp.yaml
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</pre>
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A sample BGP configuration:
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<pre>
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---
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apiVersion: projectcalico.org/v3
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kind: BGPConfiguration
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metadata:
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  name: default
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spec:
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  logSeverityScreen: Info
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  nodeToNodeMeshEnabled: true
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  asNumber: 65534
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  serviceClusterIPs:
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  - cidr: 2a0a:e5c0:10:3::/108
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  serviceExternalIPs:
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  - cidr: 2a0a:e5c0:10:3::/108
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---
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apiVersion: projectcalico.org/v3
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kind: BGPPeer
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metadata:
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  name: router1-place10
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spec:
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  peerIP: 2a0a:e5c0:10:1::50
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  asNumber: 213081
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  keepOriginalNextHop: true
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</pre>
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h2. Cilium CNI (experimental)
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h3. Status
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*NO WORKING CILIUM CONFIGURATION FOR IPV6 only modes*
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h3. Latest error
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It seems cilium does not run on IPv6 only hosts:
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<pre>
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level=info msg="Validating configured node address ranges" subsys=daemon
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level=fatal msg="postinit failed" error="external IPv4 node address could not be derived, please configure via --ipv4-node" subsys=daemon
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level=info msg="Starting IP identity watcher" subsys=ipcache
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</pre>
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It crashes after that log entry
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h3. BGP configuration
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* The cilium-operator will not start without a correct configmap being present beforehand (see error message below)
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* Creating the bgp config beforehand as a configmap is thus required.
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The error one gets without the configmap present:
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Pods are hanging with:
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<pre>
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cilium-bpqm6                       0/1     Init:0/4            0             9s
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cilium-operator-5947d94f7f-5bmh2   0/1     ContainerCreating   0             9s
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</pre>
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The error message in the cilium-*perator is:
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<pre>
482
Events:
483
  Type     Reason       Age                From               Message
484
  ----     ------       ----               ----               -------
485
  Normal   Scheduled    80s                default-scheduler  Successfully assigned kube-system/cilium-operator-5947d94f7f-lqcsp to server56
486
  Warning  FailedMount  16s (x8 over 80s)  kubelet            MountVolume.SetUp failed for volume "bgp-config-path" : configmap "bgp-config" not found
487
</pre>
488
489
A correct bgp config looks like this:
490
491
<pre>
492
apiVersion: v1
493
kind: ConfigMap
494
metadata:
495
  name: bgp-config
496
  namespace: kube-system
497
data:
498
  config.yaml: |
499
    peers:
500
      - peer-address: 2a0a:e5c0::46
501
        peer-asn: 209898
502
        my-asn: 65533
503
      - peer-address: 2a0a:e5c0::47
504
        peer-asn: 209898
505
        my-asn: 65533
506
    address-pools:
507
      - name: default
508
        protocol: bgp
509
        addresses:
510
          - 2a0a:e5c0:0:14::/64
511
</pre>
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513
h3. Installation
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Adding the repo
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<pre>
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helm repo add cilium https://helm.cilium.io/
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helm repo update
520
</pre>
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Installing + configuring cilium
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<pre>
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ipv6pool=2a0a:e5c0:0:14::/112
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version=1.12.2
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528
helm upgrade --install cilium cilium/cilium --version $version \
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  --namespace kube-system \
530
  --set ipv4.enabled=false \
531
  --set ipv6.enabled=true \
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  --set enableIPv6Masquerade=false \
533
  --set bgpControlPlane.enabled=true 
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#  --set ipam.operator.clusterPoolIPv6PodCIDRList=$ipv6pool
536
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# Old style bgp?
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#   --set bgp.enabled=true --set bgp.announce.podCIDR=true \
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540
# Show possible configuration options
541
helm show values cilium/cilium
542
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</pre>
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545
Using a /64 for ipam.operator.clusterPoolIPv6PodCIDRList fails with:
546
547
<pre>
548
level=fatal msg="Unable to init cluster-pool allocator" error="unable to initialize IPv6 allocator New CIDR set failed; the node CIDR size is too big" subsys=cilium-operator-generic
549
</pre>
550
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See also https://github.com/cilium/cilium/issues/20756
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554
Seems a /112 is actually working.
555
556
h3. Kernel modules
557
558
Cilium requires the following modules to be loaded on the host (not loaded by default):
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560
<pre>
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modprobe  ip6table_raw
562
modprobe  ip6table_filter
563
</pre>
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565
h3. Interesting helm flags
566
567
* autoDirectNodeRoutes
568
* bgpControlPlane.enabled = true
569
570
h3. SEE ALSO
571
572
* https://docs.cilium.io/en/v1.12/helm-reference/
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h2. ArgoCD 
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h3. Argocd Installation
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* See https://argo-cd.readthedocs.io/en/stable/
579
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As there is no configuration management present yet, argocd is installed using
581
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<pre>
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kubectl create namespace argocd
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# Specific Version
586
kubectl apply -n argocd -f https://raw.githubusercontent.com/argoproj/argo-cd/v2.3.2/manifests/install.yaml
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588
# OR: latest stable
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kubectl apply -n argocd -f https://raw.githubusercontent.com/argoproj/argo-cd/stable/manifests/install.yaml
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</pre>
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h3. Get the argocd credentials
595
596
<pre>
597
kubectl -n argocd get secret argocd-initial-admin-secret -o jsonpath="{.data.password}" | base64 -d; echo ""
598
</pre>
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h3. Accessing argocd
601
602
In regular IPv6 clusters:
603
604
* Navigate to https://argocd-server.argocd.CLUSTERDOMAIN
605
606
In legacy IPv4 clusters
607
608
<pre>
609
kubectl --namespace argocd port-forward svc/argocd-server 8080:80
610
</pre>
611
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* Navigate to https://localhost:8080
613
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h3. Using the argocd webhook to trigger changes
615 67 Nico Schottelius
616
* To trigger changes post json https://argocd.example.com/api/webhook
617
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h3. Deploying an application
619
620
* Applications are deployed via git towards gitea (code.ungleich.ch) and then pulled by argo
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* Always include the *redmine-url* pointing to the (customer) ticket
622
** Also add the support-url if it exists
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624
Application sample
625
626
<pre>
627
apiVersion: argoproj.io/v1alpha1
628
kind: Application
629
metadata:
630
  name: gitea-CUSTOMER
631
  namespace: argocd
632
spec:
633
  destination:
634
    namespace: default
635
    server: 'https://kubernetes.default.svc'
636
  source:
637
    path: apps/prod/gitea
638
    repoURL: 'https://code.ungleich.ch/ungleich-intern/k8s-config.git'
639
    targetRevision: HEAD
640
    helm:
641
      parameters:
642
        - name: storage.data.storageClass
643
          value: rook-ceph-block-hdd
644
        - name: storage.data.size
645
          value: 200Gi
646
        - name: storage.db.storageClass
647
          value: rook-ceph-block-ssd
648
        - name: storage.db.size
649
          value: 10Gi
650
        - name: storage.letsencrypt.storageClass
651
          value: rook-ceph-block-hdd
652
        - name: storage.letsencrypt.size
653
          value: 50Mi
654
        - name: letsencryptStaging
655
          value: 'no'
656
        - name: fqdn
657
          value: 'code.verua.online'
658
  project: default
659
  syncPolicy:
660
    automated:
661
      prune: true
662
      selfHeal: true
663
  info:
664
    - name: 'redmine-url'
665
      value: 'https://redmine.ungleich.ch/issues/ISSUEID'
666
    - name: 'support-url'
667
      value: 'https://support.ungleich.ch/Ticket/Display.html?id=TICKETID'
668
</pre>
669
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h2. Helm related operations and conventions
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We use helm charts extensively.
673
674
* In production, they are managed via argocd
675
* In development, helm chart can de developed and deployed manually using the helm utility.
676
677 55 Nico Schottelius
h3. Installing a helm chart
678
679
One can use the usual pattern of
680
681
<pre>
682
helm install <releasename> <chartdirectory>
683
</pre>
684
685
However often you want to reinstall/update when testing helm charts. The following pattern is "better", because it allows you to reinstall, if it is already installed:
686
687
<pre>
688
helm upgrade --install <releasename> <chartdirectory>
689 1 Nico Schottelius
</pre>
690 80 Nico Schottelius
691
h3. Naming services and deployments in helm charts [Application labels]
692
693
* We always have {{ .Release.Name }} to identify the current "instance"
694
* Deployments:
695
** use @app: <what it is>@, f.i. @app: nginx@, @app: postgres@, ...
696 81 Nico Schottelius
* See more about standard labels on
697
** https://kubernetes.io/docs/concepts/overview/working-with-objects/common-labels/
698
** https://helm.sh/docs/chart_best_practices/labels/
699 55 Nico Schottelius
700 139 Nico Schottelius
h2. Rook + Ceph
701
702
h3. Installation
703
704
* Usually directly via argocd
705
706
Manual steps:
707
708
<pre>
709
710
</pre>
711 43 Nico Schottelius
712 71 Nico Schottelius
h3. Executing ceph commands
713
714
Using the ceph-tools pod as follows:
715
716
<pre>
717
kubectl exec -n rook-ceph -ti $(kubectl -n rook-ceph get pods -l app=rook-ceph-tools -o jsonpath='{.items[*].metadata.name}') -- ceph -s
718
</pre>
719
720 43 Nico Schottelius
h3. Inspecting the logs of a specific server
721
722
<pre>
723
# Get the related pods
724
kubectl -n rook-ceph get pods -l app=rook-ceph-osd-prepare 
725
...
726
727
# Inspect the logs of a specific pod
728
kubectl -n rook-ceph logs -f rook-ceph-osd-prepare-server23--1-444qx
729
730 71 Nico Schottelius
</pre>
731
732
h3. Inspecting the logs of the rook-ceph-operator
733
734
<pre>
735
kubectl -n rook-ceph logs -f -l app=rook-ceph-operator
736 43 Nico Schottelius
</pre>
737
738 121 Nico Schottelius
h3. Restarting the rook operator
739
740
<pre>
741
kubectl -n rook-ceph delete pods  -l app=rook-ceph-operator
742
</pre>
743
744 43 Nico Schottelius
h3. Triggering server prepare / adding new osds
745
746
The rook-ceph-operator triggers/watches/creates pods to maintain hosts. To trigger a full "re scan", simply delete that pod:
747
748
<pre>
749
kubectl -n rook-ceph delete pods -l app=rook-ceph-operator
750
</pre>
751
752
This will cause all the @rook-ceph-osd-prepare-..@ jobs to be recreated and thus OSDs to be created, if new disks have been added.
753
754
h3. Removing an OSD
755
756
* See "Ceph OSD Management":https://rook.io/docs/rook/v1.7/ceph-osd-mgmt.html
757 77 Nico Schottelius
* More specifically: https://github.com/rook/rook/blob/release-1.7/cluster/examples/kubernetes/ceph/osd-purge.yaml
758 99 Nico Schottelius
* Then delete the related deployment
759 41 Nico Schottelius
760 98 Nico Schottelius
Set osd id in the osd-purge.yaml and apply it. OSD should be down before.
761
762
<pre>
763
apiVersion: batch/v1
764
kind: Job
765
metadata:
766
  name: rook-ceph-purge-osd
767
  namespace: rook-ceph # namespace:cluster
768
  labels:
769
    app: rook-ceph-purge-osd
770
spec:
771
  template:
772
    metadata:
773
      labels:
774
        app: rook-ceph-purge-osd
775
    spec:
776
      serviceAccountName: rook-ceph-purge-osd
777
      containers:
778
        - name: osd-removal
779
          image: rook/ceph:master
780
          # TODO: Insert the OSD ID in the last parameter that is to be removed
781
          # The OSD IDs are a comma-separated list. For example: "0" or "0,2".
782
          # If you want to preserve the OSD PVCs, set `--preserve-pvc true`.
783
          #
784
          # A --force-osd-removal option is available if the OSD should be destroyed even though the
785
          # removal could lead to data loss.
786
          args:
787
            - "ceph"
788
            - "osd"
789
            - "remove"
790
            - "--preserve-pvc"
791
            - "false"
792
            - "--force-osd-removal"
793
            - "false"
794
            - "--osd-ids"
795
            - "SETTHEOSDIDHERE"
796
          env:
797
            - name: POD_NAMESPACE
798
              valueFrom:
799
                fieldRef:
800
                  fieldPath: metadata.namespace
801
            - name: ROOK_MON_ENDPOINTS
802
              valueFrom:
803
                configMapKeyRef:
804
                  key: data
805
                  name: rook-ceph-mon-endpoints
806
            - name: ROOK_CEPH_USERNAME
807
              valueFrom:
808
                secretKeyRef:
809
                  key: ceph-username
810
                  name: rook-ceph-mon
811
            - name: ROOK_CEPH_SECRET
812
              valueFrom:
813
                secretKeyRef:
814
                  key: ceph-secret
815
                  name: rook-ceph-mon
816
            - name: ROOK_CONFIG_DIR
817
              value: /var/lib/rook
818
            - name: ROOK_CEPH_CONFIG_OVERRIDE
819
              value: /etc/rook/config/override.conf
820
            - name: ROOK_FSID
821
              valueFrom:
822
                secretKeyRef:
823
                  key: fsid
824
                  name: rook-ceph-mon
825
            - name: ROOK_LOG_LEVEL
826
              value: DEBUG
827
          volumeMounts:
828
            - mountPath: /etc/ceph
829
              name: ceph-conf-emptydir
830
            - mountPath: /var/lib/rook
831
              name: rook-config
832
      volumes:
833
        - emptyDir: {}
834
          name: ceph-conf-emptydir
835
        - emptyDir: {}
836
          name: rook-config
837
      restartPolicy: Never
838
839
840 99 Nico Schottelius
</pre>
841
842
Deleting the deployment:
843
844
<pre>
845
[18:05] bridge:~% kubectl -n rook-ceph delete deployment rook-ceph-osd-6
846
deployment.apps "rook-ceph-osd-6" deleted
847 98 Nico Schottelius
</pre>
848
849 145 Nico Schottelius
h2. Ingress + Cert Manager
850
851
* We deploy "nginx-ingress":https://docs.nginx.com/nginx-ingress-controller/ to get an ingress
852
* we deploy "cert-manager":https://cert-manager.io/ to handle certificates
853
* We independently deploy @ClusterIssuer@ to allow the cert-manager app to deploy and the issuer to be created once the CRDs from cert manager are in place
854
855
h3. IPv4 reachability 
856
857
The ingress is by default IPv6 only. To make it reachable from the IPv4 world, get its IPv6 address and configure a NAT64 mapping in Jool.
858
859
Steps:
860
861
h4. Get the ingress IPv6 address
862
863
Use @kubectl -n ingress-nginx get svc ingress-nginx-controller -o jsonpath='{.spec.clusterIP}'; echo ''@
864
865
Example:
866
867
<pre>
868
kubectl -n ingress-nginx get svc ingress-nginx-controller -o jsonpath='{.spec.clusterIP}'; echo ''
869
2a0a:e5c0:10:1b::ce11
870
</pre>
871
872
h4. Add NAT64 mapping
873
874
* Update the __dcl_jool_siit cdist type
875
* Record the two IPs (IPv6 and IPv4)
876
* Configure all routers
877
878
879
h4. Add DNS record
880
881
To use the ingress capable as a CNAME destination, create an "ingress" DNS record, such as:
882
883
<pre>
884
; k8s ingress for dev
885
dev-ingress                 AAAA 2a0a:e5c0:10:1b::ce11
886
dev-ingress                 A 147.78.194.23
887
888
</pre> 
889
890
h4. Add supporting wildcard DNS
891
892
If you plan to add various sites under a specific domain, we can add a wildcard DNS entry, such as *.k8s-dev.django-hosting.ch:
893
894
<pre>
895
*.k8s-dev         CNAME dev-ingress.ungleich.ch.
896
</pre>
897
898 76 Nico Schottelius
h2. Harbor
899
900
* We user "Harbor":https://goharbor.io/ for caching and as an image registry. Internal app reference: apps/prod/harbor.
901
* The admin password is in the password store, auto generated per cluster
902
* At the moment harbor only authenticates against the internal ldap tree
903
904
h3. LDAP configuration
905
906
* The url needs to be ldaps://...
907
* uid = uid
908
* rest standard
909 75 Nico Schottelius
910 89 Nico Schottelius
h2. Monitoring / Prometheus
911
912 90 Nico Schottelius
* Via "kube-prometheus":https://github.com/prometheus-operator/kube-prometheus/
913 89 Nico Schottelius
914 91 Nico Schottelius
Access via ...
915
916
* http://prometheus-k8s.monitoring.svc:9090
917
* http://grafana.monitoring.svc:3000
918
* http://alertmanager.monitoring.svc:9093
919
920
921 100 Nico Schottelius
h3. Prometheus Options
922
923
* "helm/kube-prometheus-stack":https://github.com/prometheus-community/helm-charts/tree/main/charts/kube-prometheus-stack
924
** Includes dashboards and co.
925
* "manifest based kube-prometheus":https://github.com/prometheus-operator/kube-prometheus
926
** Includes dashboards and co.
927
* "Prometheus Operator (mainly CRD manifest":https://github.com/prometheus-operator/prometheus-operator
928
929 91 Nico Schottelius
930 82 Nico Schottelius
h2. Nextcloud
931
932 85 Nico Schottelius
h3. How to get the nextcloud credentials 
933 84 Nico Schottelius
934
* The initial username is set to "nextcloud"
935
* The password is autogenerated and saved in a kubernetes secret
936
937
<pre>
938 85 Nico Schottelius
kubectl get secret RELEASENAME-nextcloud -o jsonpath="{.data.PASSWORD}" | base64 -d; echo "" 
939 84 Nico Schottelius
</pre>
940
941 83 Nico Schottelius
h3. How to fix "Access through untrusted domain"
942
943 82 Nico Schottelius
* Nextcloud stores the initial domain configuration
944 1 Nico Schottelius
* If the FQDN is changed, it will show the error message "Access through untrusted domain"
945 82 Nico Schottelius
* To fix, edit /var/www/html/config/config.php and correct the domain
946 83 Nico Schottelius
* Then delete the pods
947 82 Nico Schottelius
948 1 Nico Schottelius
h2. Infrastructure versions
949 35 Nico Schottelius
950 57 Nico Schottelius
h3. ungleich kubernetes infrastructure v5 (2021-10)
951 1 Nico Schottelius
952 57 Nico Schottelius
Clusters are configured / setup in this order:
953
954
* Bootstrap via kubeadm
955 59 Nico Schottelius
* "Networking via calico + BGP (non ECMP) using helm":https://docs.projectcalico.org/getting-started/kubernetes/helm
956
* "ArgoCD for CD":https://argo-cd.readthedocs.io/en/stable/
957
** "rook for storage via argocd":https://rook.io/
958 58 Nico Schottelius
** haproxy for in IPv6-cluster-IPv4-to-IPv6 proxy via argocd
959
** "kubernetes-secret-generator for in cluster secrets":https://github.com/mittwald/kubernetes-secret-generator
960
** "ungleich-certbot managing certs and nginx":https://hub.docker.com/repository/docker/ungleich/ungleich-certbot
961
962 57 Nico Schottelius
963
h3. ungleich kubernetes infrastructure v4 (2021-09)
964
965 54 Nico Schottelius
* rook is configured via manifests instead of using the rook-ceph-cluster helm chart
966 1 Nico Schottelius
* The rook operator is still being installed via helm
967 35 Nico Schottelius
968 57 Nico Schottelius
h3. ungleich kubernetes infrastructure v3 (2021-07)
969 1 Nico Schottelius
970 10 Nico Schottelius
* rook is now installed via helm via argocd instead of directly via manifests
971 28 Nico Schottelius
972 57 Nico Schottelius
h3. ungleich kubernetes infrastructure v2 (2021-05)
973 28 Nico Schottelius
974
* Replaced fluxv2 from ungleich k8s v1 with argocd
975 1 Nico Schottelius
** argocd can apply helm templates directly without needing to go through Chart releases
976 28 Nico Schottelius
* We are also using argoflow for build flows
977
* Planned to add "kaniko":https://github.com/GoogleContainerTools/kaniko for image building
978
979 57 Nico Schottelius
h3. ungleich kubernetes infrastructure v1 (2021-01)
980 28 Nico Schottelius
981
We are using the following components:
982
983
* "Calico as a CNI":https://www.projectcalico.org/ with BGP, IPv6 only, no encapsulation
984
** Needed for basic networking
985
* "kubernetes-secret-generator":https://github.com/mittwald/kubernetes-secret-generator for creating secrets
986
** Needed so that secrets are not stored in the git repository, but only in the cluster
987
* "ungleich-certbot":https://hub.docker.com/repository/docker/ungleich/ungleich-certbot
988
** Needed to get letsencrypt certificates for services
989
* "rook with ceph rbd + cephfs":https://rook.io/ for storage
990
** rbd for almost everything, *ReadWriteOnce*
991
** cephfs for smaller things, multi access *ReadWriteMany*
992
** Needed for providing persistent storage
993
* "flux v2":https://fluxcd.io/
994
** Needed to manage resources automatically