docs: mega refactor

Also bunch of edits at wiki.k-space.ee
This commit is contained in:
rasmus 2024-07-30 10:51:34 +03:00
parent 186ea5d947
commit 66034d2463
5 changed files with 219 additions and 222 deletions

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CLUSTER.md Normal file
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@ -0,0 +1,170 @@
# Kubernetes cluster
Kubernetes hosts run on [PVE Cluster](https://wiki.k-space.ee/en/hosting/proxmox). Hosts are listed in Ansible [inventory](ansible/inventory.yml).
## `kubectl`
- Authorization [ACLs](cluster-role-bindings.yml)
- [Troubleshooting `no such host`](#systemd-resolved-issues)
Authenticate to auth.k-space.ee:
```bash
kubectl krew install oidc-login
mkdir -p ~/.kube
cat << EOF > ~/.kube/config
apiVersion: v1
clusters:
- cluster:
certificate-authority-data: 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
server: https://master.kube.k-space.ee:6443
name: kubernetes
contexts:
- context:
cluster: kubernetes
user: oidc
name: default
current-context: default
kind: Config
preferences: {}
users:
- name: oidc
user:
exec:
apiVersion: client.authentication.k8s.io/v1beta1
args:
- oidc-login
- get-token
- --oidc-issuer-url=https://auth.k-space.ee/
- --oidc-client-id=passmower.kubelogin
- --oidc-use-pkce
- --oidc-extra-scope=profile,email,groups
- --listen-address=127.0.0.1:27890
command: kubectl
env: null
provideClusterInfo: false
EOF
# Test it:
kubectl get nodes # opens browser for authentication
```
### systemd-resolved issues
```sh
Unable to connect to the server: dial tcp: lookup master.kube.k-space.ee on 127.0.0.53:53: no such host
```
```
Network → VPN → `IPv4` → Other nameservers (Muud nimeserverid): `172.21.0.1`
Network → VPN → `IPv6` → Other nameservers (Muud nimeserverid): `2001:bb8:4008:21::1`
Network → VPN → `IPv4` → Search domains (Otsingudomeenid): `kube.k-space.ee`
Network → VPN → `IPv6` → Search domains (Otsingudomeenid): `kube.k-space.ee`
```
## Cluster formation
Created Ubuntu 22.04 VM-s on Proxmox with local storage.
Added some ARM64 workers by using Ubuntu 22.04 server on Raspberry Pi.
After machines have booted up and you can reach them via SSH:
```
# Disable Ubuntu caching DNS resolver
systemctl disable systemd-resolved.service
systemctl stop systemd-resolved
rm -fv /etc/resolv.conf
cat > /etc/resolv.conf << EOF
nameserver 1.1.1.1
nameserver 8.8.8.8
EOF
# Disable multipathd as Longhorn handles that itself
systemctl mask multipathd snapd
systemctl disable --now multipathd snapd bluetooth ModemManager hciuart wpa_supplicant packagekit
# Permit root login
sed -i -e 's/PermitRootLogin no/PermitRootLogin without-password/' /etc/ssh/sshd_config
systemctl reload ssh
cat ~ubuntu/.ssh/authorized_keys > /root/.ssh/authorized_keys
userdel -f ubuntu
apt-get install -yqq linux-image-generic
apt-get remove -yq cloud-init linux-image-*-kvm
```
On master:
```
kubeadm init --token-ttl=120m --pod-network-cidr=10.244.0.0/16 --control-plane-endpoint "master.kube.k-space.ee:6443" --upload-certs --apiserver-cert-extra-sans master.kube.k-space.ee --node-name master1.kube.k-space.ee
```
For the `kubeadm join` command specify FQDN via `--node-name $(hostname -f)`.
Set AZ labels:
```
for j in $(seq 1 9); do
for t in master mon worker storage; do
kubectl label nodes ${t}${j}.kube.k-space.ee topology.kubernetes.io/zone=node${j}
done
done
```
After forming the cluster add taints:
```bash
for j in $(seq 1 9); do
kubectl label nodes worker${j}.kube.k-space.ee node-role.kubernetes.io/worker=''
done
for j in $(seq 1 4); do
kubectl taint nodes mon${j}.kube.k-space.ee dedicated=monitoring:NoSchedule
kubectl label nodes mon${j}.kube.k-space.ee dedicated=monitoring
done
for j in $(seq 1 4); do
kubectl taint nodes storage${j}.kube.k-space.ee dedicated=storage:NoSchedule
kubectl label nodes storage${j}.kube.k-space.ee dedicated=storage
done
```
For `arm64` nodes add suitable taint to prevent scheduling non-multiarch images on them:
```bash
kubectl taint nodes worker9.kube.k-space.ee arch=arm64:NoSchedule
```
For door controllers:
```
for j in ground front back; do
kubectl taint nodes door-${j}.kube.k-space.ee dedicated=door:NoSchedule
kubectl label nodes door-${j}.kube.k-space.ee dedicated=door
kubectl taint nodes door-${j}.kube.k-space.ee arch=arm64:NoSchedule
done
```
To reduce wear on storage:
```
echo StandardOutput=null >> /etc/systemd/system/kubelet.service.d/10-kubeadm.conf
systemctl daemon-reload
systemctl restart kubelet
```
## Technology mapping
Our self-hosted Kubernetes stack compared to AWS based deployments:
| Hipster startup | Self-hosted hackerspace | Purpose |
|-------------------|-------------------------------------|---------------------------------------------------------------------|
| AWS ALB | Traefik | Reverse proxy also known as ingress controller in Kubernetes jargon |
| AWS AMP | Prometheus Operator | Monitoring and alerting |
| AWS CloudTrail | ECK Operator | Log aggregation |
| AWS DocumentDB | MongoDB Community Operator | Highly available NoSQL database |
| AWS EBS | Longhorn | Block storage for arbitrary applications needing persistent storage |
| AWS EC2 | Proxmox | Virtualization layer |
| AWS ECR | Harbor | Docker registry |
| AWS EKS | kubeadm | Provision Kubernetes master nodes |
| AWS NLB | MetalLB | L2/L3 level load balancing |
| AWS RDS for MySQL | MySQL Operator | Provision highly available relational databases |
| AWS Route53 | Bind and RFC2136 | DNS records and Let's Encrypt DNS validation |
| AWS S3 | Minio Operator | Highly available object storage |
| AWS VPC | Calico | Overlay network |
| Dex | Passmower | ACL mapping and OIDC provider which integrates with GitHub/Samba |
| GitHub Actions | Drone | Build Docker images |
| GitHub | Gitea | Source code management, issue tracking |
| GitHub OAuth2 | Samba (Active Directory compatible) | Source of truth for authentication and authorization |
| Gmail | Wildduck | E-mail |

249
README.md
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@ -1,230 +1,41 @@
# Kubernetes cluster manifests
# k-space.ee infrastructure
Kubernetes manifests, Ansible [playbooks](ansible/README.md), and documentation for K-SPACE services.
## Introduction
- Repo is deployed with [ArgoCD](https://argocd.k-space.ee). For `kubectl` access, see [CLUSTER.md](CLUSTER.md#kubectl).
- Debugging Kubernetes [on Wiki](https://wiki.k-space.ee/en/hosting/debugging-kubernetes)
- Need help? → [`#kube`](https://k-space-ee.slack.com/archives/C02EYV1NTM2)
This is the Kubernetes manifests of services running on k-space.ee domains.
The applications are listed on https://auth2.k-space.ee for authenticated users.
Jump to docs: [inventory-app](hackerspace/README.md) / [cameras](camtiler/README.md) / [doors](https://wiki.k-space.ee/en/hosting/doors) / [list of apps](https://auth.k-space.ee) // [all infra](ansible/inventory.yml) / [network](https://wiki.k-space.ee/en/hosting/network/sensitive) / [retro](https://wiki.k-space.ee/en/hosting/retro) / [non-infra](https://wiki.k-space.ee)
## Supporting services
- Build [Git](https://git.k-space.ee) repositories with [Woodpecker](https://woodpecker.k-space.ee).
- Passmower: Authz with `kind: OIDCMiddlewareClient` (or `kind: OIDCClient`[^authz]).
- Traefik[^nonginx]: Expose services with `kind: Service` + `kind: Ingress` (TLS and DNS **included**).
## Cluster access
### Additional
- bind: Manage _additional_ DNS records with `kind: DNSEndpoint`.
- [Prometheus](https://wiki.k-space.ee/en/hosting/monitoring): Collect metrics with `kind: PodMonitor` (alerts with `kind: PrometheusRule`).
- [Slack bots](SLACK.md) and Kubernetes [CLUSTER.md](CLUSTER.md) itself.
General discussion is happening in the `#kube` Slack channel.
[^nonginx]: No nginx annotations! Use `kind: Ingress` instead. `IngressRoute` is not used as it doesn't support [`external-dns`](bind/README.md) out of the box.
[^authz]: Applications should prefer `Remote-User` (`kind: OIDCGWMiddlewareClient`), which gates app exposure to the public internet. Where not applicable or possible, use OpenID Connect (`kind: OIDCClient`) for authentication.
<details><summary>Bootstrapping access</summary>
For bootstrap access obtain `/etc/kubernetes/admin.conf` from one of the master
nodes and place it under `~/.kube/config` on your machine.
### Databases / -stores:
- KeyDB: `kind: KeydbClaim` (replaces Redis[^redisdead])
- Dragonfly: `kind: Dragonfly` (replaces Redis[^redisdead])
- Longhorn: `storageClassName: longhorn` (filesystem storage)
- Mongo[^mongoproblems]: `kind: MongoDBCommunity` (NAS* `inventory-mongodb`)
- Minio S3: `kind: MinioBucketClaim` with `class: dedicated` (NAS*: `class: external`)
- MariaDB*: search for `mysql`, `mariadb`[^mariadb] (replaces MySQL)
- Postgres*: hardcoded to [harbor/application.yml](harbor/application.yml)
Once Passmower is working, OIDC access for others can be enabled with
running following on Kubernetes masters:
\* External, hosted directly on [nas.k-space.ee](https://wiki.k-space.ee/en/hosting/storage)
```bash
patch /etc/kubernetes/manifests/kube-apiserver.yaml - << EOF
@@ -23,6 +23,10 @@
- --etcd-certfile=/etc/kubernetes/pki/apiserver-etcd-client.crt
- --etcd-keyfile=/etc/kubernetes/pki/apiserver-etcd-client.key
- --etcd-servers=https://127.0.0.1:2379
+ - --oidc-issuer-url=https://auth.k-space.ee/
+ - --oidc-client-id=oidc-gateway.kubelogin
+ - --oidc-username-claim=sub
+ - --oidc-groups-claim=groups
- --kubelet-client-certificate=/etc/kubernetes/pki/apiserver-kubelet-client.crt
- --kubelet-client-key=/etc/kubernetes/pki/apiserver-kubelet-client.key
- --kubelet-preferred-address-types=InternalIP,ExternalIP,Hostname
EOF
sudo systemctl daemon-reload
systemctl restart kubelet
```
</details>
[^mariadb]: As of 2024-07-30 used by auth, authelia, bitwarden, etherpad, freescout, git, grafana, nextcloud, wiki, woodpecker
The following can be used to talk to the Kubernetes cluster using OIDC credentials:
[^redisdead]: Redis has been replaced as redis-operatori couldn't handle itself: didn't reconcile after reboots, master URI was empty, and clients complained about missing masters. ArgoCD still hosts its own Redis.
```bash
kubectl krew install oidc-login
mkdir -p ~/.kube
cat << EOF > ~/.kube/config
apiVersion: v1
clusters:
- cluster:
certificate-authority-data: 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
server: https://master.kube.k-space.ee:6443
name: kubernetes
contexts:
- context:
cluster: kubernetes
user: oidc
name: default
current-context: default
kind: Config
preferences: {}
users:
- name: oidc
user:
exec:
apiVersion: client.authentication.k8s.io/v1beta1
args:
- oidc-login
- get-token
- --oidc-issuer-url=https://auth.k-space.ee/
- --oidc-client-id=passmower.kubelogin
- --oidc-use-pkce
- --oidc-extra-scope=profile,email,groups
- --listen-address=127.0.0.1:27890
command: kubectl
env: null
provideClusterInfo: false
EOF
```
[^mongoproblems]: Mongo problems: Incompatible with rawfile csi (wiredtiger.wt corrupts), complicated resizing (PVCs from statefulset PVC template).
For access control mapping see [cluster-role-bindings.yml](cluster-role-bindings.yml)
### systemd-resolved issues on access
```sh
Unable to connect to the server: dial tcp: lookup master.kube.k-space.ee on 127.0.0.53:53: no such host
```
```
Network → VPN → `IPv4` → Other nameservers (Muud nimeserverid): `172.21.0.1`
Network → VPN → `IPv6` → Other nameservers (Muud nimeserverid): `2001:bb8:4008:21::1`
Network → VPN → `IPv4` → Search domains (Otsingudomeenid): `kube.k-space.ee`
Network → VPN → `IPv6` → Search domains (Otsingudomeenid): `kube.k-space.ee`
```
# Technology mapping
Our self-hosted Kubernetes stack compared to AWS based deployments:
| Hipster startup | Self-hosted hackerspace | Purpose |
|-------------------|-------------------------------------|---------------------------------------------------------------------|
| AWS ALB | Traefik | Reverse proxy also known as ingress controller in Kubernetes jargon |
| AWS AMP | Prometheus Operator | Monitoring and alerting |
| AWS CloudTrail | ECK Operator | Log aggregation |
| AWS DocumentDB | MongoDB Community Operator | Highly available NoSQL database |
| AWS EBS | Longhorn | Block storage for arbitrary applications needing persistent storage |
| AWS EC2 | Proxmox | Virtualization layer |
| AWS ECR | Harbor | Docker registry |
| AWS EKS | kubeadm | Provision Kubernetes master nodes |
| AWS NLB | MetalLB | L2/L3 level load balancing |
| AWS RDS for MySQL | MySQL Operator | Provision highly available relational databases |
| AWS Route53 | Bind and RFC2136 | DNS records and Let's Encrypt DNS validation |
| AWS S3 | Minio Operator | Highly available object storage |
| AWS VPC | Calico | Overlay network |
| Dex | Passmower | ACL mapping and OIDC provider which integrates with GitHub/Samba |
| GitHub Actions | Drone | Build Docker images |
| GitHub | Gitea | Source code management, issue tracking |
| GitHub OAuth2 | Samba (Active Directory compatible) | Source of truth for authentication and authorization |
| Gmail | Wildduck | E-mail |
External dependencies running as classic virtual machines:
- Bind as DNS server
## Adding applications
Deploy applications via [ArgoCD](https://argocd.k-space.ee)
We use Treafik with Passmower for Ingress.
Applications where possible and where applicable should use `Remote-User`
authentication. This prevents application exposure on public Internet.
Otherwise use OpenID Connect for authentication,
see Argo itself as an example how that is done.
See `camtiler/ingress.yml` for commented Ingress example.
Note that we do not use IngressRoute objects because they don't
support `external-dns` out of the box.
Do NOT add nginx annotations, we use Traefik.
Do NOT manually add DNS records, they are added by `external-dns`.
Do NOT manually create Certificate objects,
these should be handled by `tls:` section in Ingress.
## Cluster formation
Created Ubuntu 22.04 VM-s on Proxmox with local storage.
Added some ARM64 workers by using Ubuntu 22.04 server on Raspberry Pi.
After machines have booted up and you can reach them via SSH:
```
# Disable Ubuntu caching DNS resolver
systemctl disable systemd-resolved.service
systemctl stop systemd-resolved
rm -fv /etc/resolv.conf
cat > /etc/resolv.conf << EOF
nameserver 1.1.1.1
nameserver 8.8.8.8
EOF
# Disable multipathd as Longhorn handles that itself
systemctl mask multipathd snapd
systemctl disable --now multipathd snapd bluetooth ModemManager hciuart wpa_supplicant packagekit
# Permit root login
sed -i -e 's/PermitRootLogin no/PermitRootLogin without-password/' /etc/ssh/sshd_config
systemctl reload ssh
cat ~ubuntu/.ssh/authorized_keys > /root/.ssh/authorized_keys
userdel -f ubuntu
apt-get install -yqq linux-image-generic
apt-get remove -yq cloud-init linux-image-*-kvm
```
On master:
```
kubeadm init --token-ttl=120m --pod-network-cidr=10.244.0.0/16 --control-plane-endpoint "master.kube.k-space.ee:6443" --upload-certs --apiserver-cert-extra-sans master.kube.k-space.ee --node-name master1.kube.k-space.ee
```
For the `kubeadm join` command specify FQDN via `--node-name $(hostname -f)`.
Set AZ labels:
```
for j in $(seq 1 9); do
for t in master mon worker storage; do
kubectl label nodes ${t}${j}.kube.k-space.ee topology.kubernetes.io/zone=node${j}
done
done
```
After forming the cluster add taints:
```bash
for j in $(seq 1 9); do
kubectl label nodes worker${j}.kube.k-space.ee node-role.kubernetes.io/worker=''
done
for j in $(seq 1 4); do
kubectl taint nodes mon${j}.kube.k-space.ee dedicated=monitoring:NoSchedule
kubectl label nodes mon${j}.kube.k-space.ee dedicated=monitoring
done
for j in $(seq 1 4); do
kubectl taint nodes storage${j}.kube.k-space.ee dedicated=storage:NoSchedule
kubectl label nodes storage${j}.kube.k-space.ee dedicated=storage
done
```
For `arm64` nodes add suitable taint to prevent scheduling non-multiarch images on them:
```bash
kubectl taint nodes worker9.kube.k-space.ee arch=arm64:NoSchedule
```
For door controllers:
```
for j in ground front back; do
kubectl taint nodes door-${j}.kube.k-space.ee dedicated=door:NoSchedule
kubectl label nodes door-${j}.kube.k-space.ee dedicated=door
kubectl taint nodes door-${j}.kube.k-space.ee arch=arm64:NoSchedule
done
```
To reduce wear on storage:
```
echo StandardOutput=null >> /etc/systemd/system/kubelet.service.d/10-kubeadm.conf
systemctl daemon-reload
systemctl restart kubelet
```
***
_This page is referenced by wiki [front page](https://wiki.k-space.ee) as **the** technical documentation for infra._

View File

@ -1,3 +1,8 @@
# This file is linked from /README.md as 'all infra'.
##### Not otherwise linked:
# Homepage: https://git.k-space.ee/k-space/homepage (on GitLab)
# Slack: https://k-space-ee.slack.com
all:
vars:
admins:
@ -6,6 +11,7 @@ all:
extra_admins: []
children:
# https://wiki.k-space.ee/en/hosting/storage
nasgroup:
hosts:
nas.k-space.ee: { ansible_host: 172.23.0.7 }
@ -14,13 +20,16 @@ all:
ansible_port: 10648
vars:
offsite_dataset: offsite/backup_zrepl
misc:
children:
nasgroup:
hosts:
# https://git.k-space.ee/k-space/kube: bind/README.md (primary DNS, PVE VM)
ns1.k-space.ee: { ansible_host: 172.20.0.2 }
proxmox:
# https://wiki.k-space.ee/hosting/proxmox (depends on nas.k-space.ee)
proxmox: # aka PVE, Proxmox Virtualization Environment
vars:
extra_admins:
- rasmus
@ -30,6 +39,8 @@ all:
pve8: { ansible_host: 172.21.20.8 }
pve9: { ansible_host: 172.21.20.9 }
# https://git.k-space.ee/k-space/kube: README.md
# CLUSTER.md (PVE VMs + external nas.k-space.ee)
kubernetes:
children:
masters:
@ -39,12 +50,12 @@ all:
master3.kube.k-space.ee: { ansible_host: 172.21.3.53 }
kubelets:
children:
mon:
mon: # they sit in a priviledged VLAN
hosts:
mon1.kube.k-space.ee: { ansible_host: 172.21.3.61 }
mon2.kube.k-space.ee: { ansible_host: 172.21.3.62 }
mon3.kube.k-space.ee: { ansible_host: 172.21.3.63 }
storage:
storage: # longhorn, to be replaced with a more direct CSI
hosts:
storage1.kube.k-space.ee: { ansible_host: 172.21.3.71 }
storage2.kube.k-space.ee: { ansible_host: 172.21.3.72 }
@ -58,6 +69,8 @@ all:
worker4.kube.k-space.ee: { ansible_host: 172.20.3.84 }
worker9.kube.k-space.ee: { ansible_host: 172.20.3.89 } # Raspberry Pi 400
# https://wiki.k-space.ee/en/hosting/doors
# See also: https://git.k-space.ee/k-space/kube: camtiler/README.md
doors:
vars:
extra_admins:

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@ -1,3 +1,5 @@
# Referenced and documented by https://wiki.k-space.ee/en/hosting/storage#zrepl
- name: zrepl
hosts: nasgroup
tasks:

View File

@ -1,4 +1,5 @@
## Monitoring
Additional docs: https://wiki.k-space.ee/en/hosting/monitoring
This namespace is managed by
[ArgoCD](https://argocd.k-space.ee/applications/argocd/monitoring)