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---
title: "Installation"
description: Installation notes of vaultwarden on k3s
tags:
- k3s
- kubernetes
- postgresql
- UpdateNeeded
- vaultwarden
---
## Introduction
Please refer to [the official website](https://pass.app/) documentation for an up to date installation guide. This page only lists what I had to do at the time to setup pass and adapt it to my particular setup. I updated these instructions after migrating from a traditional hosting to kubernetes.
## Preparing the postgresql database
I have a postgresql running in its own namespace from bitnami images. To provision the pass database I :
```sh
export POSTGRES_PASSWORD=$(k get secret -n postgresql postgresql-secrets -o jsonpath="{.data.postgresql-password}"|
base64 --decode)
k run client --rm -ti -n postgresql --image docker.io/bitnami/postgresql:13.4.0-debian-10-r52 \
--env="PGPASSWORD=$POSTGRES_PASSWORD" --command -- psql --host postgresql -U postgres
CREATE ROLE pass WITH LOGIN PASSWORD 'secret';
CREATE DATABASE pass WITH OWNER pass TEMPLATE template0 ENCODING UTF8 LC_COLLATE
'en_US.UTF-8' LC_CTYPE 'en_US.UTF-8';
\c pass
create extension hstore;
```
Optionally import a dump of the database by running in another shell :
```sh
k -n postgresql cp pass.sql-20211005 client:/tmp/
```
Then in the psql shell :
```sh
\c pass
\i /tmp/pass.sql-20211005
```
## Kubernetes manifests in terraform
This app is part of an experiment of mine to migrate stuff from traditional hosting to kubernetes. I first wrote manifests by hand then imported them with terraform. I do not like it and find it too complex/overkill but everything is managed this way for now.
### DNS CNAME
Since all configuration regarding this application is in terraform, so is my dns :
```hcl
resource "cloudflare_record" "pass-cname" {
zone_id = lookup(data.cloudflare_zones.adyxax-org.zones[0], "id")
name = "pass"
value = "myth.adyxax.org"
type = "CNAME"
proxied = false
}
```
### Namespace
The basic terraform object works for simple things so here it is :
```hcl
resource "kubernetes_namespace" "myth-pass" {
provider = kubernetes.myth
metadata {
name = "pass"
}
}
```
### Secret
Here is the kubernetes secret that tells pass how to connect the database. The password comes from `terraform.tfvars`, you might need to update the service url with the format `<svc>.<namespace>.svc.cluster.local` :
```hcl
resource "kubernetes_secret" "myth-pass-secrets" {
provider = kubernetes.myth
metadata {
name = "pass-secrets"
namespace = kubernetes_namespace.myth-pass.id
}
data = {
ADMIN_PASSWORD = var.pass-admin-password
DATABASE_URL = join("", [ "postgres://pass:${var.pass-postgres-password}",
"@postgresql.postgresql.svc.cluster.local/pass?sslmode=disable"])
}
type = "Opaque"
}
```
### Deployment
At the time of writing I could not write the deployment with the `kubernetes_deployment` terraform ressource, so it is a raw manifest which imports a yaml syntax in hcl. It is horrible to look at but works. Change the image tag to the latest stable version of vaultwarden before deploying :
```hcl
resource "kubernetes_manifest" "myth-deployment-pass" {
provider = kubernetes.myth
manifest = {
"apiVersion" = "apps/v1"
"kind" = "Deployment"
"metadata" = {
"name" = "pass"
"namespace" = kubernetes_namespace.myth-pass.id
}
"spec" = {
"replicas" = 1
"selector" = {
"matchLabels" = {
"app" = "pass"
}
}
"strategy" = {
"type" = "RollingUpdate"
"rollingUpdate" = {
"maxSurge" = 1
"maxUnavailable" = 0
}
}
"template" = {
"metadata" = {
"labels" = {
"app" = "pass"
}
}
"spec" = {
"containers" = [
{
"env" = [
{
"name" = "DATABASE_URL"
"valueFrom" = {
"secretKeyRef" = {
"key" = "DATABASE_URL"
"name" = "pass-secrets"
}
}
},
{
"name" = "RUN_MIGRATIONS"
"value" = "1"
},
{
"name" = "ADMIN_USERNAME"
"value" = "admin"
},
{
"name" = "ADMIN_PASSWORD"
"valueFrom" = {
"secretKeyRef" = {
"key" = "ADMIN_PASSWORD"
"name" = "pass-secrets"
}
}
},
]
"image" = "vaultwarden/server:1.23.0"
"livenessProbe" = {
"httpGet" = {
"path" = "/"
"port" = 8080
}
"initialDelaySeconds" = 5
"timeoutSeconds" = 5
}
"name" = "pass"
"ports" = [
{
"containerPort" = 8080
},
]
"readinessProbe" = {
"httpGet" = {
"path" = "/"
"port" = 8080
}
"initialDelaySeconds" = 5
"timeoutSeconds" = 5
}
"lifecycle" = {
"preStop" = {
"exec" = {
"command" = ["/bin/sh", "-c", "sleep 10"]
}
}
}
},
]
"terminationGracePeriodSeconds" = 1
}
}
}
}
}
```
### Service
```hcl
resource "kubernetes_manifest" "myth-service-pass" {
provider = kubernetes.myth
manifest = {
"apiVersion" = "v1"
"kind" = "Service"
"metadata" = {
"name" = "pass"
"namespace" = kubernetes_namespace.myth-pass.id
}
"spec" = {
"ports" = [
{
"port" = 80
"protocol" = "TCP"
"targetPort" = 8080
},
]
"selector" = {
"app" = "pass"
}
"type" = "ClusterIP"
}
}
}
```
### Ingress
```hcl
resource "kubernetes_manifest" "myth-ingress-pass" {
provider = kubernetes.myth
manifest = {
"apiVersion" = "networking.k8s.io/v1"
"kind" = "Ingress"
"metadata" = {
"name" = "pass"
"namespace" = kubernetes_namespace.myth-pass.id
}
"spec" = {
"ingressClassName" = "nginx"
"rules" = [
{
"host" = "pass.adyxax.org"
"http" = {
"paths" = [
{
"path" = "/"
"pathType" = "Prefix"
"backend" = {
"service" = {
"name" = "pass"
"port" = {
"number" = 80
}
}
}
},
]
}
},
]
"tls" = [
{
"secretName" = "wildcard-adyxax-org"
},
]
}
}
}
```
### Certificate
For now I do not manage my certificates with terraform but manually. Once every two months I run :
```sh
acme.sh --config-home "$HOME/.acme.sh" --server letsencrypt --dns dns_cf --issue -d adyxax.org -d *.adyxax.org --force
kubectl -n pass create secret tls wildcard-adyxax-org --cert=$HOME/.acme.sh/adyxax.org/fullchain.cer \
--key=$HOME/.acme.sh/adyxax.org/adyxax.org.key -o yaml --save-config --dry-run=client | kubectl apply -f -
```
|