5 minute read

Bitwarden login

A friend mentioned the BitWarden 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, 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.

I wanted to try out the self-hosted setup, and I discovered that the official distribution 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.

I then came across this comment on Reddit which discussed in somewhat-vague terms the steps required to get BitWarden to run on the free f1-micro instance, and also introduced me to the community-built bitwarden_rs 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.

Spin up a VM

Easier said than done, but head over to https://console.cloud.google.com/ and fumble through:

  1. Creating a new project (or just add an instance to an existing one).
  2. Creating a new Compute Engine instance, selecting f1-micro for the Machine Type and ticking the Allow HTTPS traffic box.
  3. (Optional) Editing the instance to add an ssh-key for easier remote access.

Configure Dynamic DNS

Because we’re cheap and don’t want to pay for a static IP.

  1. Log in to the Google Domain admin portal and create a new Dynamic DNS record. This will provide a username and password specific for that record.
  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.
  3. Edit the ddclient config file to look like this, substituting the username, password, and FDQN from Google Domains:
    $ sudo vi /etc/ddclient.conf
      # Configuration file for ddclient generated by debconf
      # /etc/ddclient.conf
  4. sudo vi /etc/default/ddclient and make sure that run_daemon="true":
# Configuration for ddclient scripts 
# generated from debconf on Sat Sep  8 21:58:02 UTC 2018
# /etc/default/ddclient

# Set to "true" if ddclient should be run every time DHCP client ('dhclient'
# from package isc-dhcp-client) updates the systems IP address.

# Set to "true" if ddclient should be run every time a new ppp connection is 
# established. This might be useful, if you are using dial-on-demand.

# Set to "true" if ddclient should run in daemon mode
# If this is changed to true, run_ipup and run_dhclient must be set to false.

# Set the time interval between the updates of the dynamic DNS name in seconds.
# This option only takes effect if the ddclient runs in daemon mode.
  1. Restart the ddclient service - twice for good measure (daemon mode only gets activated on the second go because reasons):
    $ sudo systemctl restart ddclient
    $ sudo systemctl restart ddclient
  2. 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.

Install Docker

Steps taken from here.

  1. Update apt package index:
    $ sudo apt-get update
  2. Install package management prereqs:
    $ sudo apt-get install \
     apt-transport-https \
     ca-certificates \
     curl \
     gnupg2 \
  3. Add Docker GPG key:
    $ curl -fsSL https://download.docker.com/linux/debian/gpg | sudo apt-key add -
  4. Add the Docker repo:
    $ sudo add-apt-repository \
     "deb [arch=amd64] https://download.docker.com/linux/debian \
     $(lsb_release -cs) \
  5. Update apt index again:
    $ sudo apt-get update
  6. Install Docker:
    $ sudo apt-get install docker-ce

Install Certbot and generate SSL cert

Steps taken from here.

  1. Add stretch-backports repo:
    $ sudo add-apt-repository \
     "deb https://ftp.debian.org/debian \
     stretch-backports main"
  2. Install Certbot:
    $ sudo apt-get install certbot -t stretch-backports
  3. Generate certificate:
    $ sudo certbot certonly --standalone -d [FQDN]
  4. Create a directory to store the new certificates and copy them there:
    $ sudo mkdir -p /ssl/keys/
    $ sudo cp -p /etc/letsencrypt/live/[FQDN]/fullchain.pem /ssl/keys/
    $ sudo cp -p /etc/letsencrypt/live/[FQDN]/privkey.pem /ssl/keys/

Set up bitwarden_rs

Using the container image available here.

  1. Let’s just get it up and running first:
    $ sudo docker run -d --name bitwarden \
     -e ROCKET_TLS={certs='"/ssl/fullchain.pem", key="/ssl/privkey.pem"}' \
     -e ROCKET_PORT='8000' \
     -v /ssl/keys/:/ssl/ \
     -v /bw-data/:/data/ \
     -v /icon_cache/ \
     -p \
  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.
  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:
    $ sudo docker stop bitwarden
    $ sudo docker rm bitwarden
    $ sudo docker run -d --name bitwarden \
     -e ROCKET_TLS={certs='"/ssl/fullchain.pem",key="/ssl/privkey.pem"'} \
     -e ROCKET_PORT='8000' \
     -e SIGNUPS_ALLOWED=false \
     -e DOMAIN=https://[FQDN] \
     -v /ssl/keys/:/ssl/ \
     -v /bw-data/:/data/ \
     -v /icon_cache/ \
     -p \

Install bitwarden_rs as a service

So we don’t have to keep manually firing this thing off.

  1. Create a script to stop, remove, update, and (re)start the bitwarden_rs container:
    $ sudo vi /usr/local/bin/start-bitwarden.sh
     docker stop bitwarden
     docker rm bitwarden
     docker pull mprasil/bitwarden
     docker run -d --name bitwarden \
             -e ROCKET_TLS={certs='"/ssl/fullchain.pem",key="/ssl/privkey.pem"'} \
             -e ROCKET_PORT='8000' \
             -e SIGNUPS_ALLOWED=false \
             -e DOMAIN=https://[FQDN] \
             -v /ssl/keys/:/ssl/ \
             -v /bw-data/:/data/ \
             -v /icon_cache/ \
             -p \
    $ sudo chmod 744 /usr/local/bin/start-bitwarden.sh
  2. And add it as a systemd service:
    $ sudo vi /etc/systemd/system/bitwarden.service
     Description=BitWarden container
     ExecStop=/usr/bin/docker stop bitwarden
    $ sudo chmod 644 /etc/systemd/system/bitwarden.service
  3. Try it out:
    $ sudo systemctl start bitwarden
    $ sudo systemctl status bitwarden
     ● bitwarden.service - BitWarden container
        Loaded: loaded (/etc/systemd/system/bitwarden.service; enabled; vendor preset: enabled)
        Active: deactivating (stop) since Sun 2018-09-09 03:43:20 UTC;   1s ago
       Process: 13104 ExecStart=/usr/local/bin/bitwarden-start.sh (code=exited, status=0/SUCCESS)
      Main PID: 13104 (code=exited, status=0/SUCCESS); Control PID:  13229 (docker)
         Tasks: 5 (limit: 4915)
        Memory: 9.7M
           CPU: 375ms
        CGroup: /system.slice/bitwarden.service
                  └─13229 /usr/bin/docker stop bitwarden
     Sep 09 03:43:20 bitwarden bitwarden-start.sh[13104]: Status: Image is up to date for mprasil/bitwarden:latest
     Sep 09 03:43:20 bitwarden bitwarden-start.sh[13104]:        ace64ca5294eee7e21be764ea1af9e328e944658b4335ce8721b99a33061d645


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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