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The ungleich kubernetes infrastructure » History » Version 196

Nico Schottelius, 10/04/2023 11:43 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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| [[p6-cow.k8s.ooo]] | production        |            | server134 server135 server136 | "argo":https://argocd-server.argocd.svc.p6in10.k8s.ooo | ?             |    2023-05-17 |
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| [[p10.k8s.ooo]]    | production        |            | server131 server132 server133 | "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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| [[r1r2p15k8sooo|r1.p15.k8s.ooo]] | production | Nico | server120 | | | 2022-10-30 |
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| [[r1r2p15k8sooo|r2.p15.k8s.ooo]] | production | Nico | server121 | | | 2022-09-06 |
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| [[r1r2p10k8sooo|r1.p10.k8s.ooo]] | production | Nico | server122 | | | 2022-10-30 |
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| [[r1r2p10k8sooo|r2.p10.k8s.ooo]] | production | Nico | server123 | | | 2022-10-15 |
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| [[r1r2p5k8sooo|r1.p5.k8s.ooo]] | production | Nico | server137 | | | 2022-10-30 |
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| [[r1r2p5k8sooo|r2.p5.k8s.ooo]] | production | Nico | server138 | | | 2022-10-30 |
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| [[r1r2p6k8sooo|r1.p6.k8s.ooo]] | production | Nico | server139 | | | 2022-10-30 |
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| [[r1r2p6k8sooo|r2.p6.k8s.ooo]] | production | Nico | server140 | | | 2022-10-30 |
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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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h3. How to upgrade a kubernetes cluster
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h4. General
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* Should be done every X months to stay up-to-date
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** X probably something like 3-6
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* kubeadm based clusters
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* Needs specific kubeadm versions for upgrade
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* Follow instructions on https://kubernetes.io/docs/tasks/administer-cluster/kubeadm/kubeadm-upgrade/
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* Finding releases: https://github.com/kubernetes/kubernetes/tree/master/CHANGELOG
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h4. Getting a specific kubeadm or kubelet version
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<pre>
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RELEASE=v1.22.17
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RELEASE=v1.23.17
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RELEASE=v1.24.9
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RELEASE=v1.25.9
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RELEASE=v1.26.6
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RELEASE=v1.27.2
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ARCH=amd64
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curl -L --remote-name-all https://dl.k8s.io/release/${RELEASE}/bin/linux/${ARCH}/{kubeadm,kubelet}
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chmod u+x kubeadm kubelet
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</pre>
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h4. Steps
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* kubeadm upgrade plan
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** On one control plane node
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* kubeadm upgrade apply vXX.YY.ZZ
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** On one control plane node
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* kubeadm upgrade node
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** On all other control plane nodes
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** On all worker nodes afterwards
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Repeat for all control planes nodes. The upgrade kubelet on all other nodes via package manager.
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h4. Upgrading to 1.22.17
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* https://v1-22.docs.kubernetes.io/docs/tasks/administer-cluster/kubeadm/kubeadm-upgrade/
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* Need to create a kubeadm config map
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* Done for p6 on 2023-10-04
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h4. Upgrading to 1.23.17
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* https://v1-23.docs.kubernetes.io/docs/tasks/administer-cluster/kubeadm/kubeadm-upgrade/
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* No special notes
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* Done for p6 on 2023-10-04
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h4. Upgrading to 1.24.17
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* https://v1-24.docs.kubernetes.io/docs/tasks/administer-cluster/kubeadm/kubeadm-upgrade/
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* No special notes
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* Done for p6 on 2023-10-04
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h4. Upgrading to 1.25.14
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* https://v1-24.docs.kubernetes.io/docs/tasks/administer-cluster/kubeadm/kubeadm-upgrade/
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* No special notes
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* Done for p6 on 2023-10-04
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h4. Upgrading to 1.26.9
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* https://v1-26.docs.kubernetes.io/docs/tasks/administer-cluster/kubeadm/kubeadm-upgrade/
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* No special notes
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* Done for p6 on 2023-10-04
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h4. Upgrading to 1.27
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* https://v1-27.docs.kubernetes.io/docs/tasks/administer-cluster/kubeadm/kubeadm-upgrade/
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* kubelet will not start anymore
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* reason: @"command failed" err="failed to parse kubelet flag: unknown flag: --container-runtime"@
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* /var/lib/kubelet/kubeadm-flags.env contains that parameter
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* remove it, start kubelet
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h4. Upgrade to kubernetes 1.28
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* https://v1-28.docs.kubernetes.io/docs/tasks/administer-cluster/kubeadm/kubeadm-upgrade/
445 186 Nico Schottelius
446
h4. Upgrade to crio 1.27: missing crun
447
448
Error message
449
450
<pre>
451
level=fatal msg="validating runtime config: runtime validation: \"crun\" not found in $PATH: exec: \"crun\": executable file not found in $PATH"
452
</pre>
453
454
Fix:
455
456
<pre>
457
apk add crun
458
</pre>
459
460 157 Nico Schottelius
h2. Reference CNI
461
462
* Mainly "stupid", but effective plugins
463
* Main documentation on https://www.cni.dev/plugins/current/
464 158 Nico Schottelius
* Plugins
465
** bridge
466
*** Can create the bridge on the host
467
*** But seems not to be able to add host interfaces to it as well
468
*** Has support for vlan tags
469
** vlan
470
*** creates vlan tagged sub interface on the host
471 160 Nico Schottelius
*** "It's a 1:1 mapping (i.e. no bridge in between)":https://github.com/k8snetworkplumbingwg/multus-cni/issues/569
472 158 Nico Schottelius
** host-device
473
*** moves the interface from the host into the container
474
*** very easy for physical connections to containers
475 159 Nico Schottelius
** ipvlan
476
*** "virtualisation" of a host device
477
*** routing based on IP
478
*** Same MAC for everyone
479
*** Cannot reach the master interface
480
** maclvan
481
*** With mac addresses
482
*** Supports various modes (to be checked)
483
** ptp ("point to point")
484
*** Creates a host device and connects it to the container
485
** win*
486 158 Nico Schottelius
*** Windows implementations
487 157 Nico Schottelius
488 62 Nico Schottelius
h2. Calico CNI
489
490
h3. Calico Installation
491
492
* We install "calico using helm":https://docs.projectcalico.org/getting-started/kubernetes/helm
493
* This has the following advantages:
494
** Easy to upgrade
495
** Does not require os to configure IPv6/dual stack settings as the tigera operator figures out things on its own
496
497
Usually plain calico can be installed directly using:
498
499
<pre>
500 174 Nico Schottelius
VERSION=v3.25.0
501 149 Nico Schottelius
502 1 Nico Schottelius
helm repo add projectcalico https://docs.projectcalico.org/charts
503 167 Nico Schottelius
helm repo update
504 124 Nico Schottelius
helm upgrade --install --namespace tigera calico projectcalico/tigera-operator --version $VERSION --create-namespace
505 1 Nico Schottelius
</pre>
506 92 Nico Schottelius
507
* Check the tags on https://github.com/projectcalico/calico/tags for the latest release
508 62 Nico Schottelius
509
h3. Installing calicoctl
510
511 115 Nico Schottelius
* General installation instructions, including binary download: https://projectcalico.docs.tigera.io/maintenance/clis/calicoctl/install
512
513 62 Nico Schottelius
To be able to manage and configure calico, we need to 
514
"install calicoctl (we choose the version as a pod)":https://docs.projectcalico.org/getting-started/clis/calicoctl/install#install-calicoctl-as-a-kubernetes-pod
515
516
<pre>
517
kubectl apply -f https://docs.projectcalico.org/manifests/calicoctl.yaml
518
</pre>
519
520 93 Nico Schottelius
Or version specific:
521
522
<pre>
523
kubectl apply -f https://github.com/projectcalico/calico/blob/v3.20.4/manifests/calicoctl.yaml
524 97 Nico Schottelius
525
# For 3.22
526
kubectl apply -f https://projectcalico.docs.tigera.io/archive/v3.22/manifests/calicoctl.yaml
527 93 Nico Schottelius
</pre>
528
529 70 Nico Schottelius
And making it easier accessible by alias:
530
531
<pre>
532
alias calicoctl="kubectl exec -i -n kube-system calicoctl -- /calicoctl"
533
</pre>
534
535 62 Nico Schottelius
h3. Calico configuration
536
537 63 Nico Schottelius
By default our k8s clusters "BGP peer":https://docs.projectcalico.org/networking/bgp
538
with an upstream router to propagate podcidr and servicecidr.
539 62 Nico Schottelius
540
Default settings in our infrastructure:
541
542
* We use a full-mesh using the @nodeToNodeMeshEnabled: true@ option
543
* We keep the original next hop so that *only* the server with the pod is announcing it (instead of ecmp)
544 1 Nico Schottelius
* We use private ASNs for k8s clusters
545 63 Nico Schottelius
* We do *not* use any overlay
546 62 Nico Schottelius
547
After installing calico and calicoctl the last step of the installation is usually:
548
549 1 Nico Schottelius
<pre>
550 79 Nico Schottelius
calicoctl create -f - < calico-bgp.yaml
551 62 Nico Schottelius
</pre>
552
553
554
A sample BGP configuration:
555
556
<pre>
557
---
558
apiVersion: projectcalico.org/v3
559
kind: BGPConfiguration
560
metadata:
561
  name: default
562
spec:
563
  logSeverityScreen: Info
564
  nodeToNodeMeshEnabled: true
565
  asNumber: 65534
566
  serviceClusterIPs:
567
  - cidr: 2a0a:e5c0:10:3::/108
568
  serviceExternalIPs:
569
  - cidr: 2a0a:e5c0:10:3::/108
570
---
571
apiVersion: projectcalico.org/v3
572
kind: BGPPeer
573
metadata:
574
  name: router1-place10
575
spec:
576
  peerIP: 2a0a:e5c0:10:1::50
577
  asNumber: 213081
578
  keepOriginalNextHop: true
579
</pre>
580
581 126 Nico Schottelius
h2. Cilium CNI (experimental)
582
583 137 Nico Schottelius
h3. Status
584
585 138 Nico Schottelius
*NO WORKING CILIUM CONFIGURATION FOR IPV6 only modes*
586 137 Nico Schottelius
587 146 Nico Schottelius
h3. Latest error
588
589
It seems cilium does not run on IPv6 only hosts:
590
591
<pre>
592
level=info msg="Validating configured node address ranges" subsys=daemon
593
level=fatal msg="postinit failed" error="external IPv4 node address could not be derived, please configure via --ipv4-node" subsys=daemon
594
level=info msg="Starting IP identity watcher" subsys=ipcache
595
</pre>
596
597
It crashes after that log entry
598
599 128 Nico Schottelius
h3. BGP configuration
600
601
* The cilium-operator will not start without a correct configmap being present beforehand (see error message below)
602
* Creating the bgp config beforehand as a configmap is thus required.
603
604
The error one gets without the configmap present:
605
606
Pods are hanging with:
607
608
<pre>
609
cilium-bpqm6                       0/1     Init:0/4            0             9s
610
cilium-operator-5947d94f7f-5bmh2   0/1     ContainerCreating   0             9s
611
</pre>
612
613
The error message in the cilium-*perator is:
614
615
<pre>
616
Events:
617
  Type     Reason       Age                From               Message
618
  ----     ------       ----               ----               -------
619
  Normal   Scheduled    80s                default-scheduler  Successfully assigned kube-system/cilium-operator-5947d94f7f-lqcsp to server56
620
  Warning  FailedMount  16s (x8 over 80s)  kubelet            MountVolume.SetUp failed for volume "bgp-config-path" : configmap "bgp-config" not found
621
</pre>
622
623
A correct bgp config looks like this:
624
625
<pre>
626
apiVersion: v1
627
kind: ConfigMap
628
metadata:
629
  name: bgp-config
630
  namespace: kube-system
631
data:
632
  config.yaml: |
633
    peers:
634
      - peer-address: 2a0a:e5c0::46
635
        peer-asn: 209898
636
        my-asn: 65533
637
      - peer-address: 2a0a:e5c0::47
638
        peer-asn: 209898
639
        my-asn: 65533
640
    address-pools:
641
      - name: default
642
        protocol: bgp
643
        addresses:
644
          - 2a0a:e5c0:0:14::/64
645
</pre>
646 127 Nico Schottelius
647
h3. Installation
648 130 Nico Schottelius
649 127 Nico Schottelius
Adding the repo
650 1 Nico Schottelius
<pre>
651 127 Nico Schottelius
652 129 Nico Schottelius
helm repo add cilium https://helm.cilium.io/
653 130 Nico Schottelius
helm repo update
654
</pre>
655 129 Nico Schottelius
656 135 Nico Schottelius
Installing + configuring cilium
657 129 Nico Schottelius
<pre>
658 130 Nico Schottelius
ipv6pool=2a0a:e5c0:0:14::/112
659 1 Nico Schottelius
660 146 Nico Schottelius
version=1.12.2
661 129 Nico Schottelius
662
helm upgrade --install cilium cilium/cilium --version $version \
663 1 Nico Schottelius
  --namespace kube-system \
664
  --set ipv4.enabled=false \
665
  --set ipv6.enabled=true \
666 146 Nico Schottelius
  --set enableIPv6Masquerade=false \
667
  --set bgpControlPlane.enabled=true 
668 1 Nico Schottelius
669 146 Nico Schottelius
#  --set ipam.operator.clusterPoolIPv6PodCIDRList=$ipv6pool
670
671
# Old style bgp?
672 136 Nico Schottelius
#   --set bgp.enabled=true --set bgp.announce.podCIDR=true \
673 127 Nico Schottelius
674
# Show possible configuration options
675
helm show values cilium/cilium
676
677 1 Nico Schottelius
</pre>
678 132 Nico Schottelius
679
Using a /64 for ipam.operator.clusterPoolIPv6PodCIDRList fails with:
680
681
<pre>
682
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
683
</pre>
684
685 126 Nico Schottelius
686 1 Nico Schottelius
See also https://github.com/cilium/cilium/issues/20756
687 135 Nico Schottelius
688
Seems a /112 is actually working.
689
690
h3. Kernel modules
691
692
Cilium requires the following modules to be loaded on the host (not loaded by default):
693
694
<pre>
695 1 Nico Schottelius
modprobe  ip6table_raw
696
modprobe  ip6table_filter
697
</pre>
698 146 Nico Schottelius
699
h3. Interesting helm flags
700
701
* autoDirectNodeRoutes
702
* bgpControlPlane.enabled = true
703
704
h3. SEE ALSO
705
706
* https://docs.cilium.io/en/v1.12/helm-reference/
707 133 Nico Schottelius
708 179 Nico Schottelius
h2. Multus
709 168 Nico Schottelius
710
* https://github.com/k8snetworkplumbingwg/multus-cni
711
* Installing a deployment w/ CRDs
712 150 Nico Schottelius
713 169 Nico Schottelius
<pre>
714 176 Nico Schottelius
VERSION=v4.0.1
715 169 Nico Schottelius
716 170 Nico Schottelius
kubectl apply -f https://raw.githubusercontent.com/k8snetworkplumbingwg/multus-cni/${VERSION}/deployments/multus-daemonset-crio.yml
717
</pre>
718 169 Nico Schottelius
719 191 Nico Schottelius
h2. ArgoCD
720 56 Nico Schottelius
721 60 Nico Schottelius
h3. Argocd Installation
722 1 Nico Schottelius
723 116 Nico Schottelius
* See https://argo-cd.readthedocs.io/en/stable/
724
725 60 Nico Schottelius
As there is no configuration management present yet, argocd is installed using
726
727 1 Nico Schottelius
<pre>
728 60 Nico Schottelius
kubectl create namespace argocd
729 1 Nico Schottelius
730
# OR: latest stable
731
kubectl apply -n argocd -f https://raw.githubusercontent.com/argoproj/argo-cd/stable/manifests/install.yaml
732
733 191 Nico Schottelius
# OR Specific Version
734
kubectl apply -n argocd -f https://raw.githubusercontent.com/argoproj/argo-cd/v2.3.2/manifests/install.yaml
735 56 Nico Schottelius
736 191 Nico Schottelius
737
</pre>
738 1 Nico Schottelius
739 60 Nico Schottelius
h3. Get the argocd credentials
740
741
<pre>
742
kubectl -n argocd get secret argocd-initial-admin-secret -o jsonpath="{.data.password}" | base64 -d; echo ""
743
</pre>
744 52 Nico Schottelius
745 87 Nico Schottelius
h3. Accessing argocd
746
747
In regular IPv6 clusters:
748
749
* Navigate to https://argocd-server.argocd.CLUSTERDOMAIN
750
751
In legacy IPv4 clusters
752
753
<pre>
754
kubectl --namespace argocd port-forward svc/argocd-server 8080:80
755
</pre>
756
757 88 Nico Schottelius
* Navigate to https://localhost:8080
758
759 68 Nico Schottelius
h3. Using the argocd webhook to trigger changes
760 67 Nico Schottelius
761
* To trigger changes post json https://argocd.example.com/api/webhook
762
763 72 Nico Schottelius
h3. Deploying an application
764
765
* Applications are deployed via git towards gitea (code.ungleich.ch) and then pulled by argo
766 73 Nico Schottelius
* Always include the *redmine-url* pointing to the (customer) ticket
767
** Also add the support-url if it exists
768 72 Nico Schottelius
769
Application sample
770
771
<pre>
772
apiVersion: argoproj.io/v1alpha1
773
kind: Application
774
metadata:
775
  name: gitea-CUSTOMER
776
  namespace: argocd
777
spec:
778
  destination:
779
    namespace: default
780
    server: 'https://kubernetes.default.svc'
781
  source:
782
    path: apps/prod/gitea
783
    repoURL: 'https://code.ungleich.ch/ungleich-intern/k8s-config.git'
784
    targetRevision: HEAD
785
    helm:
786
      parameters:
787
        - name: storage.data.storageClass
788
          value: rook-ceph-block-hdd
789
        - name: storage.data.size
790
          value: 200Gi
791
        - name: storage.db.storageClass
792
          value: rook-ceph-block-ssd
793
        - name: storage.db.size
794
          value: 10Gi
795
        - name: storage.letsencrypt.storageClass
796
          value: rook-ceph-block-hdd
797
        - name: storage.letsencrypt.size
798
          value: 50Mi
799
        - name: letsencryptStaging
800
          value: 'no'
801
        - name: fqdn
802
          value: 'code.verua.online'
803
  project: default
804
  syncPolicy:
805
    automated:
806
      prune: true
807
      selfHeal: true
808
  info:
809
    - name: 'redmine-url'
810
      value: 'https://redmine.ungleich.ch/issues/ISSUEID'
811
    - name: 'support-url'
812
      value: 'https://support.ungleich.ch/Ticket/Display.html?id=TICKETID'
813
</pre>
814
815 80 Nico Schottelius
h2. Helm related operations and conventions
816 55 Nico Schottelius
817 61 Nico Schottelius
We use helm charts extensively.
818
819
* In production, they are managed via argocd
820
* In development, helm chart can de developed and deployed manually using the helm utility.
821
822 55 Nico Schottelius
h3. Installing a helm chart
823
824
One can use the usual pattern of
825
826
<pre>
827
helm install <releasename> <chartdirectory>
828
</pre>
829
830
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:
831
832
<pre>
833
helm upgrade --install <releasename> <chartdirectory>
834 1 Nico Schottelius
</pre>
835 80 Nico Schottelius
836
h3. Naming services and deployments in helm charts [Application labels]
837
838
* We always have {{ .Release.Name }} to identify the current "instance"
839
* Deployments:
840
** use @app: <what it is>@, f.i. @app: nginx@, @app: postgres@, ...
841 81 Nico Schottelius
* See more about standard labels on
842
** https://kubernetes.io/docs/concepts/overview/working-with-objects/common-labels/
843
** https://helm.sh/docs/chart_best_practices/labels/
844 55 Nico Schottelius
845 151 Nico Schottelius
h3. Show all versions of a helm chart
846
847
<pre>
848
helm search repo -l repo/chart
849
</pre>
850
851
For example:
852
853
<pre>
854
% helm search repo -l projectcalico/tigera-operator 
855
NAME                         	CHART VERSION	APP VERSION	DESCRIPTION                            
856
projectcalico/tigera-operator	v3.23.3      	v3.23.3    	Installs the Tigera operator for Calico
857
projectcalico/tigera-operator	v3.23.2      	v3.23.2    	Installs the Tigera operator for Calico
858
....
859
</pre>
860
861 152 Nico Schottelius
h3. Show possible values of a chart
862
863
<pre>
864
helm show values <repo/chart>
865
</pre>
866
867
Example:
868
869
<pre>
870
helm show values ingress-nginx/ingress-nginx
871
</pre>
872
873 178 Nico Schottelius
h3. Download a chart
874
875
For instance for checking it out locally. Use:
876
877
<pre>
878
helm pull <repo/chart>
879
</pre>
880 152 Nico Schottelius
881 139 Nico Schottelius
h2. Rook + Ceph
882
883
h3. Installation
884
885
* Usually directly via argocd
886
887 71 Nico Schottelius
h3. Executing ceph commands
888
889
Using the ceph-tools pod as follows:
890
891
<pre>
892
kubectl exec -n rook-ceph -ti $(kubectl -n rook-ceph get pods -l app=rook-ceph-tools -o jsonpath='{.items[*].metadata.name}') -- ceph -s
893
</pre>
894
895 43 Nico Schottelius
h3. Inspecting the logs of a specific server
896
897
<pre>
898
# Get the related pods
899
kubectl -n rook-ceph get pods -l app=rook-ceph-osd-prepare 
900
...
901
902
# Inspect the logs of a specific pod
903
kubectl -n rook-ceph logs -f rook-ceph-osd-prepare-server23--1-444qx
904
905 71 Nico Schottelius
</pre>
906
907
h3. Inspecting the logs of the rook-ceph-operator
908
909
<pre>
910
kubectl -n rook-ceph logs -f -l app=rook-ceph-operator
911 43 Nico Schottelius
</pre>
912
913 121 Nico Schottelius
h3. Restarting the rook operator
914
915
<pre>
916
kubectl -n rook-ceph delete pods  -l app=rook-ceph-operator
917
</pre>
918
919 43 Nico Schottelius
h3. Triggering server prepare / adding new osds
920
921
The rook-ceph-operator triggers/watches/creates pods to maintain hosts. To trigger a full "re scan", simply delete that pod:
922
923
<pre>
924
kubectl -n rook-ceph delete pods -l app=rook-ceph-operator
925
</pre>
926
927
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.
928
929
h3. Removing an OSD
930
931
* See "Ceph OSD Management":https://rook.io/docs/rook/v1.7/ceph-osd-mgmt.html
932 77 Nico Schottelius
* More specifically: https://github.com/rook/rook/blob/release-1.7/cluster/examples/kubernetes/ceph/osd-purge.yaml
933 99 Nico Schottelius
* Then delete the related deployment
934 41 Nico Schottelius
935 98 Nico Schottelius
Set osd id in the osd-purge.yaml and apply it. OSD should be down before.
936
937
<pre>
938
apiVersion: batch/v1
939
kind: Job
940
metadata:
941
  name: rook-ceph-purge-osd
942
  namespace: rook-ceph # namespace:cluster
943
  labels:
944
    app: rook-ceph-purge-osd
945
spec:
946
  template:
947
    metadata:
948
      labels:
949
        app: rook-ceph-purge-osd
950
    spec:
951
      serviceAccountName: rook-ceph-purge-osd
952
      containers:
953
        - name: osd-removal
954
          image: rook/ceph:master
955
          # TODO: Insert the OSD ID in the last parameter that is to be removed
956
          # The OSD IDs are a comma-separated list. For example: "0" or "0,2".
957
          # If you want to preserve the OSD PVCs, set `--preserve-pvc true`.
958
          #
959
          # A --force-osd-removal option is available if the OSD should be destroyed even though the
960
          # removal could lead to data loss.
961
          args:
962
            - "ceph"
963
            - "osd"
964
            - "remove"
965
            - "--preserve-pvc"
966
            - "false"
967
            - "--force-osd-removal"
968
            - "false"
969
            - "--osd-ids"
970
            - "SETTHEOSDIDHERE"
971
          env:
972
            - name: POD_NAMESPACE
973
              valueFrom:
974
                fieldRef:
975
                  fieldPath: metadata.namespace
976
            - name: ROOK_MON_ENDPOINTS
977
              valueFrom:
978
                configMapKeyRef:
979
                  key: data
980
                  name: rook-ceph-mon-endpoints
981
            - name: ROOK_CEPH_USERNAME
982
              valueFrom:
983
                secretKeyRef:
984
                  key: ceph-username
985
                  name: rook-ceph-mon
986
            - name: ROOK_CEPH_SECRET
987
              valueFrom:
988
                secretKeyRef:
989
                  key: ceph-secret
990
                  name: rook-ceph-mon
991
            - name: ROOK_CONFIG_DIR
992
              value: /var/lib/rook
993
            - name: ROOK_CEPH_CONFIG_OVERRIDE
994
              value: /etc/rook/config/override.conf
995
            - name: ROOK_FSID
996
              valueFrom:
997
                secretKeyRef:
998
                  key: fsid
999
                  name: rook-ceph-mon
1000
            - name: ROOK_LOG_LEVEL
1001
              value: DEBUG
1002
          volumeMounts:
1003
            - mountPath: /etc/ceph
1004
              name: ceph-conf-emptydir
1005
            - mountPath: /var/lib/rook
1006
              name: rook-config
1007
      volumes:
1008
        - emptyDir: {}
1009
          name: ceph-conf-emptydir
1010
        - emptyDir: {}
1011
          name: rook-config
1012
      restartPolicy: Never
1013
1014
1015 99 Nico Schottelius
</pre>
1016
1017 1 Nico Schottelius
Deleting the deployment:
1018
1019
<pre>
1020
[18:05] bridge:~% kubectl -n rook-ceph delete deployment rook-ceph-osd-6
1021 99 Nico Schottelius
deployment.apps "rook-ceph-osd-6" deleted
1022
</pre>
1023 185 Nico Schottelius
1024
h3. Placement of mons/osds/etc.
1025
1026
See https://rook.io/docs/rook/v1.11/CRDs/Cluster/ceph-cluster-crd/#placement-configuration-settings
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h2. Ingress + Cert Manager
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* We deploy "nginx-ingress":https://docs.nginx.com/nginx-ingress-controller/ to get an ingress
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* we deploy "cert-manager":https://cert-manager.io/ to handle certificates
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* 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
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1034
h3. IPv4 reachability 
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1036
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.
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1038
Steps:
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h4. Get the ingress IPv6 address
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Use @kubectl -n ingress-nginx get svc ingress-nginx-controller -o jsonpath='{.spec.clusterIP}'; echo ''@
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Example:
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1046
<pre>
1047
kubectl -n ingress-nginx get svc ingress-nginx-controller -o jsonpath='{.spec.clusterIP}'; echo ''
1048
2a0a:e5c0:10:1b::ce11
1049
</pre>
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h4. Add NAT64 mapping
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* Update the __dcl_jool_siit cdist type
1054
* Record the two IPs (IPv6 and IPv4)
1055
* Configure all routers
1056
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h4. Add DNS record
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To use the ingress capable as a CNAME destination, create an "ingress" DNS record, such as:
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1062
<pre>
1063
; k8s ingress for dev
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dev-ingress                 AAAA 2a0a:e5c0:10:1b::ce11
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dev-ingress                 A 147.78.194.23
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</pre> 
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h4. Add supporting wildcard DNS
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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:
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<pre>
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*.k8s-dev         CNAME dev-ingress.ungleich.ch.
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</pre>
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h2. Harbor
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* We user "Harbor":https://goharbor.io/ as an image registry for our own images. Internal app reference: apps/prod/harbor.
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* The admin password is in the password store, it is Harbor12345 by default
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* At the moment harbor only authenticates against the internal ldap tree
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h3. LDAP configuration
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* The url needs to be ldaps://...
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* uid = uid
1087
* rest standard
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h2. Monitoring / Prometheus
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* Via "kube-prometheus":https://github.com/prometheus-operator/kube-prometheus/
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Access via ...
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* http://prometheus-k8s.monitoring.svc:9090
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* http://grafana.monitoring.svc:3000
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* http://alertmanager.monitoring.svc:9093
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1099
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h3. Prometheus Options
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* "helm/kube-prometheus-stack":https://github.com/prometheus-community/helm-charts/tree/main/charts/kube-prometheus-stack
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** Includes dashboards and co.
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* "manifest based kube-prometheus":https://github.com/prometheus-operator/kube-prometheus
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** Includes dashboards and co.
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* "Prometheus Operator (mainly CRD manifest":https://github.com/prometheus-operator/prometheus-operator
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h3. Grafana default password
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* If not changed: @prom-operator@
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h2. Nextcloud
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h3. How to get the nextcloud credentials 
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1116
* The initial username is set to "nextcloud"
1117
* The password is autogenerated and saved in a kubernetes secret
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<pre>
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kubectl get secret RELEASENAME-nextcloud -o jsonpath="{.data.PASSWORD}" | base64 -d; echo "" 
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</pre>
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h3. How to fix "Access through untrusted domain"
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* Nextcloud stores the initial domain configuration
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* If the FQDN is changed, it will show the error message "Access through untrusted domain"
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* To fix, edit /var/www/html/config/config.php and correct the domain
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* Then delete the pods
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1130
h3. Running occ commands inside the nextcloud container
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* Find the pod in the right namespace
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Exec:
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<pre>
1137
su www-data -s /bin/sh -c ./occ
1138
</pre>
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* -s /bin/sh is needed as the default shell is set to /bin/false
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h4. Rescanning files
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* If files have been added without nextcloud's knowledge
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<pre>
1147
su www-data -s /bin/sh -c "./occ files:scan --all"
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</pre>
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h2. Infrastructure versions
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h3. ungleich kubernetes infrastructure v5 (2021-10)
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Clusters are configured / setup in this order:
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* Bootstrap via kubeadm
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* "Networking via calico + BGP (non ECMP) using helm":https://docs.projectcalico.org/getting-started/kubernetes/helm
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* "ArgoCD for CD":https://argo-cd.readthedocs.io/en/stable/
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** "rook for storage via argocd":https://rook.io/
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** haproxy for in IPv6-cluster-IPv4-to-IPv6 proxy via argocd
1161
** "kubernetes-secret-generator for in cluster secrets":https://github.com/mittwald/kubernetes-secret-generator
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** "ungleich-certbot managing certs and nginx":https://hub.docker.com/repository/docker/ungleich/ungleich-certbot
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h3. ungleich kubernetes infrastructure v4 (2021-09)
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* rook is configured via manifests instead of using the rook-ceph-cluster helm chart
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* The rook operator is still being installed via helm
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h3. ungleich kubernetes infrastructure v3 (2021-07)
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* rook is now installed via helm via argocd instead of directly via manifests
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h3. ungleich kubernetes infrastructure v2 (2021-05)
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* Replaced fluxv2 from ungleich k8s v1 with argocd
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** argocd can apply helm templates directly without needing to go through Chart releases
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* We are also using argoflow for build flows
1179
* Planned to add "kaniko":https://github.com/GoogleContainerTools/kaniko for image building
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h3. ungleich kubernetes infrastructure v1 (2021-01)
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We are using the following components:
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* "Calico as a CNI":https://www.projectcalico.org/ with BGP, IPv6 only, no encapsulation
1186
** Needed for basic networking
1187
* "kubernetes-secret-generator":https://github.com/mittwald/kubernetes-secret-generator for creating secrets
1188
** Needed so that secrets are not stored in the git repository, but only in the cluster
1189
* "ungleich-certbot":https://hub.docker.com/repository/docker/ungleich/ungleich-certbot
1190
** Needed to get letsencrypt certificates for services
1191
* "rook with ceph rbd + cephfs":https://rook.io/ for storage
1192
** rbd for almost everything, *ReadWriteOnce*
1193
** cephfs for smaller things, multi access *ReadWriteMany*
1194
** Needed for providing persistent storage
1195
* "flux v2":https://fluxcd.io/
1196
** Needed to manage resources automatically