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253 lines
10 KiB
Markdown
253 lines
10 KiB
Markdown
---
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categories: Self-Hosting
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date: "2018-09-26T08:34:30Z"
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lastmod: "2022-03-06"
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thumbnail: i0UKdXleC.png
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usePageBundles: true
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tags:
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- docker
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- linux
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- cloud
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- gcp
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- security
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- selfhosting
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title: BitWarden password manager self-hosted on free Google Cloud instance
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---
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![Bitwarden login](i0UKdXleC.png)
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A friend mentioned the [BitWarden](https://bitwarden.com/) password manager to me yesterday and I had to confess that I'd never heard of it. I started researching it and was impressed by what I found: it's free, [open-source](https://github.com/bitwarden), feature-packed, fully cross-platform (with Windows/Linux/MacOS desktop clients, Android/iOS mobile apps, and browser extensions for Chrome/Firefox/Opera/Safari/Edge/etc), and even offers a self-hosted option.
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I wanted to try out the self-hosted setup, and I discovered that the [official distribution](https://help.bitwarden.com/article/install-on-premise/) works beautifully on an `n1-standard-1` 1-vCPU Google Compute Engine instance - but that would cost me an estimated $25/mo to run after my free Google Cloud Platform trial runs out. And I can't really scale that instance down further because the embedded database won't start with less than 2GB of RAM.
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I then came across [this comment](https://www.reddit.com/r/Bitwarden/comments/8vmwwe/best_place_to_self_host_bitwarden/e1p2f71/) on Reddit which discussed in somewhat-vague terms the steps required to get BitWarden to run on the [free](https://cloud.google.com/free/docs/always-free-usage-limits#compute_name) `e2-micro` instance, and also introduced me to the community-built [vaultwarden](https://github.com/dani-garcia/vaultwarden) project which is specifically designed to run a BW-compatible server on resource-constrained hardware. So here are the steps I wound up taking to get this up and running.
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{{% notice note "bitwarden_rs -> vaultwarden"%}}
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When I originally wrote this post back in September 2018, the containerized BitWarden solution was called `bitwarden_rs`. The project [has since been renamed](https://github.com/dani-garcia/vaultwarden/discussions/1642) to `vaultwarden`, and I've since moved to the hosted version of BitWarden. I have attempted to update this article to account for the change but have not personally tested this lately. Good luck, dear reader!
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{{% /notice %}}
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### Spin up a VM
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*Easier said than done, but head over to https://console.cloud.google.com/ and fumble through:*
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1. Creating a new project (or just add an instance to an existing one).
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2. Creating a new Compute Engine instance, selecting `e2-micro` for the Machine Type and ticking the *Allow HTTPS traffic* box.
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3. *(Optional)* Editing the instance to add an ssh-key for easier remote access.
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### Configure Dynamic DNS
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*Because we're cheap and don't want to pay for a static IP.*
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1. Log in to the [Google Domain admin portal](https://domains.google.com/registrar) and [create a new Dynamic DNS record](https://domains.google.com/registrar). This will provide a username and password specific for that record.
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2. Log in to the GCE instance and run `sudo apt-get update` followed by `sudo apt-get install ddclient`. Part of the install process prompts you to configure things... just accept the defaults and move on.
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3. Edit the `ddclient` config file to look like this, substituting the username, password, and FDQN from Google Domains:
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```shell
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sudo vim /etc/ddclient.conf # [tl! .cmd]
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```
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```ini
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# torchlight! {"lineNumbers": true}
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# Configuration file for ddclient generated by debconf
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#
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# /etc/ddclient.conf
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protocol=googledomains,
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ssl=yes,
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syslog=yes,
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use=web,
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server=domains.google.com,
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login='[USERNAME]', # [tl! highlight:3]
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password='[PASSWORD]',
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[FQDN]
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```
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4. `sudo vi /etc/default/ddclient` and make sure that `run_daemon="true"`:
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```ini
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# torchlight! {"lineNumbers": true}
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# Configuration for ddclient scripts
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# generated from debconf on Sat Sep 8 21:58:02 UTC 2018
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#
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# /etc/default/ddclient
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# Set to "true" if ddclient should be run every time DHCP client ('dhclient'
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# from package isc-dhcp-client) updates the systems IP address.
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run_dhclient="false"
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# Set to "true" if ddclient should be run every time a new ppp connection is
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# established. This might be useful, if you are using dial-on-demand.
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run_ipup="false"
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# Set to "true" if ddclient should run in daemon mode [tl! focus:3]
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# If this is changed to true, run_ipup and run_dhclient must be set to false.
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run_daemon="true"
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# Set the time interval between the updates of the dynamic DNS name in seconds.
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# This option only takes effect if the ddclient runs in daemon mode.
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daemon_interval="300"
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```
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5. Restart the `ddclient` service - twice for good measure (daemon mode only gets activated on the second go *because reasons*):
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```shell
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sudo systemctl restart ddclient # [tl! .cmd:2]
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sudo systemctl restart ddclient
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```
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6. After a few moments, refresh the Google Domains page to verify that your instance's external IP address is showing up on the new DDNS record.
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### Install Docker
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*Steps taken from [here](https://docs.docker.com/install/linux/docker-ce/debian/).*
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1. Update `apt` package index:
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```shell
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sudo apt-get update # [tl! .cmd]
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```
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2. Install package management prereqs:
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```shell
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sudo apt-get install \ # [tl! .cmd]
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apt-transport-https \
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ca-certificates \
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curl \
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gnupg2 \
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software-properties-common
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```
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3. Add Docker GPG key:
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```shell
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curl -fsSL https://download.docker.com/linux/debian/gpg | sudo apt-key add - # [tl! .cmd]
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```
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4. Add the Docker repo:
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```shell
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sudo add-apt-repository \ # [tl! .cmd]
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"deb [arch=amd64] https://download.docker.com/linux/debian \
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$(lsb_release -cs) \
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stable"
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```
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5. Update apt index again:
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```shell
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sudo apt-get update # [tl! .cmd]
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```
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6. Install Docker:
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```shell
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sudo apt-get install docker-ce # [tl! .cmd]
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```
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### Install Certbot and generate SSL cert
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*Steps taken from [here](https://certbot.eff.org/instructions?ws=other&os=debianbuster).*
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1. Install Certbot:
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```shell
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sudo apt-get install certbot # [tl! .cmd]
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```
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2. Generate certificate:
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```shell
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sudo certbot certonly --standalone -d ${FQDN} # [tl! .cmd]
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```
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3. Create a directory to store the new certificates and copy them there:
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```shell
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sudo mkdir -p /ssl/keys/ # [tl! .cmd:3]
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sudo cp -p /etc/letsencrypt/live/${FQDN}/fullchain.pem /ssl/keys/
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sudo cp -p /etc/letsencrypt/live/${FQDN}/privkey.pem /ssl/keys/
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```
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### Set up vaultwarden
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*Using the container image available [here](https://github.com/dani-garcia/vaultwarden).*
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1. Let's just get it up and running first:
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```shell
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sudo docker run -d --name vaultwarden \ # [tl! .cmd]
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-e ROCKET_TLS={certs='"/ssl/fullchain.pem", key="/ssl/privkey.pem"}' \
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-e ROCKET_PORT='8000' \
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-v /ssl/keys/:/ssl/ \
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-v /bw-data/:/data/ \
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-v /icon_cache/ \
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-p 0.0.0.0:443:8000 \
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vaultwarden/server:latest
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```
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2. At this point you should be able to point your web browser at `https://[FQDN]` and see the BitWarden login screen. Click on the Create button and set up a new account. Log in, look around, add some passwords, etc. Everything should basically work just fine.
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3. Unless you want to host passwords for all of the Internet you'll probably want to disable signups at some point by adding the `env` option `SIGNUPS_ALLOWED=false`. And you'll need to set `DOMAIN=https://[FQDN]` if you want to use U2F authentication:
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```shell
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sudo docker stop vaultwarden # [tl! .cmd:2]
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sudo docker rm vaultwarden
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sudo docker run -d --name vaultwarden \
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-e ROCKET_TLS={certs='"/ssl/fullchain.pem",key="/ssl/privkey.pem"'} \
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-e ROCKET_PORT='8000' \
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-e SIGNUPS_ALLOWED=false \
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-e DOMAIN=https://[FQDN] \
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-v /ssl/keys/:/ssl/ \
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-v /bw-data/:/data/ \
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-v /icon_cache/ \
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-p 0.0.0.0:443:8000 \
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vaultwarden/server:latest
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```
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### Install vaultwarden as a service
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*So we don't have to keep manually firing this thing off.*
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1. Create a script at `/usr/local/bin/start-vaultwarden.sh` to stop, remove, update, and (re)start the `vaultwarden` container:
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```shell
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sudo vim /usr/local/bin/start-vaultwarden.sh # [tl! .cmd]
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```
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```shell
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# torchlight! {"lineNumbers": true}
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#!/bin/bash
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docker stop vaultwarden
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docker rm vaultwarden
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docker pull vaultwarden/server
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docker run -d --name vaultwarden \
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-e ROCKET_TLS={certs='"/ssl/fullchain.pem",key="/ssl/privkey.pem"'} \
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-e ROCKET_PORT='8000' \
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-e SIGNUPS_ALLOWED=false \
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-e DOMAIN=https://${FQDN} \
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-v /ssl/keys/:/ssl/ \
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-v /bw-data/:/data/ \
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-v /icon_cache/ \
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-p 0.0.0.0:443:8000 \
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vaultwarden/server:latest
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```
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```shell
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sudo chmod 744 /usr/local/bin/start-vaultwarden.sh # [tl! .cmd]
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```
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2. And add it as a `systemd` service:
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```shell
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sudo vim /etc/systemd/system/vaultwarden.service # [tl! .cmd]
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```
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```ini
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[Unit]
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Description=BitWarden container
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Requires=docker.service
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After=docker.service
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[Service]
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Restart=always
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ExecStart=/usr/local/bin/vaultwarden-start.sh # [tl! highlight]
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ExecStop=/usr/bin/docker stop vaultwarden
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[Install]
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WantedBy=default.target
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```
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```shell
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sudo chmod 644 /etc/systemd/system/vaultwarden.service # [tl! .cmd]
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```
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3. Try it out:
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```shell
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sudo systemctl start vaultwarden # [tl! .cmd]
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```
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```shell
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sudo systemctl status vaultwarden # [tl! .cmd focus:start]
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● bitwarden.service - BitWarden container # [tl! .nocopy:start]
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Loaded: loaded (/etc/systemd/system/vaultwarden.service; enabled; vendor preset: enabled)
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Active: deactivating (stop) since Sun 2018-09-09 03:43:20 UTC; 1s ago
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Process: 13104 ExecStart=/usr/local/bin/bitwarden-start.sh (code=exited, status=0/SUCCESS) # [tl! focus:end]
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Main PID: 13104 (code=exited, status=0/SUCCESS); Control PID: 13229 (docker)
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Tasks: 5 (limit: 4915)
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Memory: 9.7M
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CPU: 375ms
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CGroup: /system.slice/vaultwarden.service
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└─control
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└─13229 /usr/bin/docker stop vaultwarden
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Sep 09 03:43:20 vaultwarden vaultwarden-start.sh[13104]: Status: Image is up to date for vaultwarden/server:latest
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Sep 09 03:43:20 vaultwarden vaultwarden-start.sh[13104]: ace64ca5294eee7e21be764ea1af9e328e944658b4335ce8721b99a33061d645 # [tl! .nocopy:end]
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```
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### Conclusion
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If all went according to plan, you've now got a highly-secure open-source full-featured cross-platform password manager running on an Always Free Google Compute Engine instance resolved by Google Domains dynamic DNS. Very slick!
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