Image is based on Rust implementation of Bitwarden API.

*Note, that this project is not associated with the Bitwarden project nor 8bit Solutions LLC.

Table of contents

• Features
• Missing features
• Docker image usage
  • Starting a container
  • Updating the bitwarden image
• Configuring bitwarden service
  • Disable registration of new users
  • Disable invitations
  • Enabling admin page
  • Enabling HTTPS
  • Enabling WebSocket notifications
  • Enabling U2F authentication
  • Enabling YubiKey OTP authentication
  • Changing persistent data location
    • /data prefix:
    • database name and location
    • attachments location
    • icons cache
  • Changing the API request size limit
  • Changing the number of workers
  • SMTP configuration
  • Password hint display
  • Disabling or overriding the Vault interface hosting
  • Logging
  • Other configuration
  • Fail2Ban Setup
    • Logging Failed Login Attempts to Syslog
    • Fail2Ban Filter
    • Fail2Ban Jail
    • Testing Fail2Ban
  • Running with systemd-docker
    • Setting environment variables
    • Running the service
• Building your own image
• Building binary
• Available packages
  • Arch Linux
• Kubernetes deployment
• Backing up your vault
  • 1. the sqlite3 database
  • 2. the attachments folder
  • 3. the key files
  • 4. Icon Cache
• Running the server with non-root user
• Differences from upstream API implementation
  • Changing user email
  • Creating organization
  • Inviting users into organization
  • Running on unencrypted connection
• Get in touch

Basically full implementation of Bitwarden API is provided including:

• Basic single user functionality
• Organizations support
• Attachments
• Vault API support
• Serving the static files for Vault interface
• Website icons API
• Authenticator and U2F support
• YubiKey OTP

• Email confirmation
• Other two-factor systems:
  • Duo
  • Email codes

The persistent data is stored under /data inside the container, so the only requirement for persistent deployment using Docker is to mount persistent volume at the path:

docker run -d --name bitwarden -v /bw-data/:/data/ -p 80:80 mprasil/bitwarden:latest

This will preserve any persistent data under /bw-data/, you can adapt the path to whatever suits you.

The service will be exposed on port 80.

Updating is straightforward, you just make sure to preserve the mounted volume. If you used the bind-mounted path as in the example above, you just need to pull the latest image, stop and rm the current container and then start a new one the same way as before:

# Pull the latest version
docker pull mprasil/bitwarden:latest

# Stop and remove the old container
docker stop bitwarden
docker rm bitwarden

# Start new container with the data mounted
docker run -d --name bitwarden -v /bw-data/:/data/ -p 80:80 mprasil/bitwarden:latest

Then visit http://localhost:80

In case you didn't bind mount the volume for persistent data, you need an intermediate step where you preserve the data with an intermediate container:

# Pull the latest version
docker pull mprasil/bitwarden:latest

# Create intermediate container to preserve data
docker run --volumes-from bitwarden --name bitwarden_data busybox true

# Stop and remove the old container
docker stop bitwarden
docker rm bitwarden

# Start new container with the data mounted
docker run -d --volumes-from bitwarden_data --name bitwarden -p 80:80 mprasil/bitwarden:latest

# Optionally remove the intermediate container
docker rm bitwarden_data

# Alternatively you can keep data container around for future updates in which case you can skip last step.

By default new users can register, if you want to disable that, set the SIGNUPS_ALLOWED env variable to false:

docker run -d --name bitwarden \
  -e SIGNUPS_ALLOWED=false \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

Note: While users can't register on their own, they can still be invited by already registered users. Read below if you also want to disable that.

Even when registration is disabled, organization administrators or owners can invite users to join organization. This won't send email invitation to the users, but after they are invited, they can register with the invited email even if SIGNUPS_ALLOWED is actually set to false. You can disable this functionality completely by setting INVITATIONS_ALLOWED env variable to false:

docker run -d --name bitwarden \
  -e SIGNUPS_ALLOWED=false \
  -e INVITATIONS_ALLOWED=false \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

IMPORTANT: It's heavily recommended to activate HTTPS before enabling this feature, to avoid posible MITM attacks.

This page allows a server administrator to view all the registered users and to delete them. It also allows inviting new users, even when registration is disabled.

To enable the admin page, you need to set an authentication token. This token can be anything, but it's recommended to use a long, randomly generated string of characters, for example running openssl rand -base64 48.

To set the token, use the ADMIN_TOKEN variable:

docker run -d --name bitwarden \
  -e ADMIN_TOKEN=Vy2VyYTTsKPv8W5aEOWUbB/Bt3DEKePbHmI4m9VcemUMS2rEviDowNAFqYi1xjmp \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

After this, the page will be available in the /admin subdomain.

To enable HTTPS, you need to configure the ROCKET_TLS.

The values to the option must follow the format:

ROCKET_TLS={certs="/path/to/certs.pem",key="/path/to/key.pem"}

Where:

• certs: a path to a certificate chain in PEM format
• key: a path to a private key file in PEM format for the certificate in certs

docker run -d --name bitwarden \
  -e ROCKET_TLS='{certs="/ssl/certs.pem",key="/ssl/key.pem"}' \
  -v /ssl/keys/:/ssl/ \
  -v /bw-data/:/data/ \
  -p 443:80 \
  mprasil/bitwarden:latest

Note that you need to mount ssl files and you need to forward appropriate port.

Due to what is likely a certificate validation bug in Android, you need to make sure that your certificate includes the full chain of trust. In the case of certbot, this means using fullchain.pem instead of cert.pem.

Softwares used for getting certs are often using symlinks. If that is the case, both locations need to be accessible to the docker container.

Example: certbot will create a folder that contains the needed fullchain.pem and privkey.pem files in /etc/letsencrypt/live/mydomain/

These files are symlinked to ../../archive/mydomain/privkey.pem

So to use from bitwarden container:

docker run -d --name bitwarden \
  -e ROCKET_TLS='{certs="/ssl/live/mydomain/fullchain.pem",key="/ssl/live/mydomain/privkey.pem"}' \
  -v /etc/letsencrypt/:/ssl/ \
  -v /bw-data/:/data/ \
  -p 443:80 \
  mprasil/bitwarden:latest

Important: This does not apply to the mobile clients, which use push notifications.

To enable WebSockets notifications, an external reverse proxy is necessary, and it must be configured to do the following:

• Route the /notifications/hub endpoint to the WebSocket server, by default at port 3012, making sure to pass the Connection and Upgrade headers. (Note the port can be changed with WEBSOCKET_PORT variable)
• Route everything else, including /notifications/hub/negotiate, to the standard Rocket server, by default at port 80.
• If using Docker, you may need to map both ports with the -p flag

Example configurations are included in the PROXY.md file.

Then you need to enable WebSockets negotiation on the bitwarden_rs side by setting the WEBSOCKET_ENABLED variable to true:

docker run -d --name bitwarden \
  -e WEBSOCKET_ENABLED=true \
  -v /bw-data/:/data/ \
  -p 80:80 \
  -p 3012:3012 \
  mprasil/bitwarden:latest

Note: The reason for this workaround is the lack of support for WebSockets from Rocket (though it's a planned feature), which forces us to launch a secondary server on a separate port.

To enable U2F authentication, you must be serving bitwarden_rs from an HTTPS domain with a valid certificate (Either using the included HTTPS options or with a reverse proxy). We recommend using a free certificate from Let's Encrypt.

After that, you need to set the DOMAIN environment variable to the same address from where bitwarden_rs is being served:

docker run -d --name bitwarden \
  -e DOMAIN=https://bw.domain.tld \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

Note that the value has to include the https:// and it may include a port at the end (in the format of https://bw.domain.tld:port) when not using 443.

To enable YubiKey authentication, you must set the YUBICO_CLIENT_ID and YUBICO_SECRET_KEY env variables.

If YUBICO_SERVER is not specified, it will use the default YubiCloud servers. You can generate YUBICO_CLIENT_ID and YUBICO_SECRET_KEY for the default YubiCloud here.

Note: In order to generate API keys or use a YubiKey with an OTP server, it must be registered. After configuring your key in the YubiKey Personalization Tool, you can register it with the default servers here.

docker run -d --name bitwarden \
  -e YUBICO_CLIENT_ID=12345 \
  -e YUBICO_SECRET_KEY=ABCDEABCDEABCDEABCDE= \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

By default all persistent data is saved under /data, you can override this path by setting the DATA_FOLDER env variable:

docker run -d --name bitwarden \
  -e DATA_FOLDER=/persistent \
  -v /bw-data/:/persistent/ \
  -p 80:80 \
  mprasil/bitwarden:latest

Notice, that you need to adapt your volume mount accordingly.

Default is $DATA_FOLDER/db.sqlite3, you can change the path specifically for database using DATABASE_URL variable:

docker run -d --name bitwarden \
  -e DATABASE_URL=/database/bitwarden.sqlite3 \
  -v /bw-data/:/data/ \
  -v /bw-database/:/database/ \
  -p 80:80 \
  mprasil/bitwarden:latest

Note, that you need to remember to mount the volume for both database and other persistent data if they are different.

Default is $DATA_FOLDER/attachments, you can change the path using ATTACHMENTS_FOLDER variable:

docker run -d --name bitwarden \
  -e ATTACHMENTS_FOLDER=/attachments \
  -v /bw-data/:/data/ \
  -v /bw-attachments/:/attachments/ \
  -p 80:80 \
  mprasil/bitwarden:latest

Note, that you need to remember to mount the volume for both attachments and other persistent data if they are different.

Default is $DATA_FOLDER/icon_cache, you can change the path using ICON_CACHE_FOLDER variable:

docker run -d --name bitwarden \
  -e ICON_CACHE_FOLDER=/icon_cache \
  -v /bw-data/:/data/ \
  -v /icon_cache/ \
  -p 80:80 \
  mprasil/bitwarden:latest

Note, that in the above example we don't mount the volume locally, which means it won't be persisted during the upgrade unless you use intermediate data container using --volumes-from. This will impact performance as bitwarden will have to re-download the icons on restart, but might save you from having stale icons in cache as they are not automatically cleaned.

By default the API calls are limited to 10MB. This should be sufficient for most cases, however if you want to support large imports, this might be limiting you. On the other hand you might want to limit the request size to something smaller than that to prevent API abuse and possible DOS attack, especially if running with limited resources.

To set the limit, you can use the ROCKET_LIMITS variable. Example here shows 10MB limit for posted json in the body (this is the default):

docker run -d --name bitwarden \
  -e ROCKET_LIMITS={json=10485760} \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

When you run bitwarden_rs, it spawns 2 * <number of cpu cores> workers to handle requests. On some systems this might lead to low number of workers and hence slow performance, so the default in the docker image is changed to spawn 10 threads. You can override this setting to increase or decrease the number of workers by setting the ROCKET_WORKERS variable.

In the example below, we're starting with 20 workers:

docker run -d --name bitwarden \
  -e ROCKET_WORKERS=20 \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

You can configure bitwarden_rs to send emails via a SMTP agent:

docker run -d --name bitwarden \
  -e SMTP_HOST=<smtp.domain.tld> \
  -e SMTP_FROM=<bitwarden@domain.tld> \
  -e SMTP_PORT=587 \
  -e SMTP_SSL=true \
  -e SMTP_USERNAME=<username> \
  -e SMTP_PASSWORD=<password> \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

When SMTP_SSL is set to true(this is the default), only TLSv1.1 and TLSv1.2 protocols will be accepted and SMTP_PORT will default to 587. If set to false, SMTP_PORT will default to 25 and the connection won't be encrypted. This can be very insecure, use this setting only if you know what you're doing.

Note that if SMTP and invitations are enabled, invitations will be sent to new users via email. You must set the DOMAIN configuration option with the base URL of your bitwarden_rs instance for the invite link to be generated correctly:

docker run -d --name bitwarden \
...
-e DOMAIN=https://vault.example.com \
...

User invitation links are valid for 5 days, after which a new invitation will need to be sent.

Usually, password hints are sent by email. But as bitwarden_rs is made with small or personal deployment in mind, hints are also available from the password hint page, so you don't have to configure an email service. If you want to disable this feature, you can use the SHOW_PASSWORD_HINT variable:

docker run -d --name bitwarden \
  -e SHOW_PASSWORD_HINT=false \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

As a convenience bitwarden_rs image will also host static files for Vault web interface. You can disable this static file hosting completely by setting the WEB_VAULT_ENABLED variable.

docker run -d --name bitwarden \
  -e WEB_VAULT_ENABLED=false \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

Alternatively you can override the Vault files and provide your own static files to host. You can do that by mounting a path with your files over the /web-vault directory in the container. Just make sure the directory contains at least index.html file.

docker run -d --name bitwarden \
  -v /path/to/static/files_directory:/web-vault \
  -v /bw-data/:/data/ \
  -p 80:80 \
  mprasil/bitwarden:latest

Note that you can also change the path where bitwarden_rs looks for static files by providing the WEB_VAULT_FOLDER environment variable with the path.

Logging to a file is supported as of 1.5.0. You can specify the path to the log file with the LOG_FILE environment variable:

docker run -d --name bitwarden \
...
  -e LOG_FILE=/data/bitwarden.log \
...

Note that if you're using the docker image, you'll most likely want to use a file path that is mounted from the host OS (such as the data folder).

Though this is unlikely to be required in small deployment, you can fine-tune some other settings like number of workers using environment variables that are processed by Rocket, please see details in documentation.

As of release 1.5.0, bitwarden_rs supports logging to file. See Logging above for information on how to set this up.

After specifying the log file location, failed login attempts will appear in the logs in the following format:

[YYYY-MM-DD hh:mm:ss][bitwarden_rs::api::identity][ERROR] Username or password is incorrect. Try again. IP: XXX.XXX.XXX.XXX. Username: email@domain.com.

Create the filter file

sudo nano /etc/fail2ban/filter.d/bitwarden.conf

And add the following

[INCLUDES]
before = common.conf

[Definition]
failregex = ^.*Username or password is incorrect\. Try again\. IP: <HOST>\. Username:.*$
ignoreregex =

Now we need the jail, create the jail file

sudo nano /etc/fail2ban/jail.d/bitwarden.local

and add:

[bitwarden]
enabled = true
port = 80,443,8081
filter = bitwarden
action = iptables-allports[name=bitwarden]
logpath = /path/to/bitwarden/log
backend = polling
maxretry = 3
bantime = 14400
findtime = 14400

Feel free to change the options as you see fit.

Now just try to login to bitwarden using any email (it doesnt have to be a valid email, just an email format) If it works correctly and your IP is banned, you can unban the ip by running:

sudo fail2ban-client unban XX.XX.XX.XX bitwarden

These instructions allow you to have systemd manage the lifecycle of the docker container, if you prefer.

First, install the systemd-docker package using your system package manager. This is a wrapper which improves docker integration with systemd.

For full instructions and configuration options, see the GitHub repository.

As root, create /etc/systemd/system/bitwarden.service using your preferred editor with the following contents:

[Unit]
Description=Bitwarden
After=docker.service
Requires=docker.service

[Service]
TimeoutStartSec=0
ExecStartPre=/usr/bin/docker pull mprasil/bitwarden:latest
ExecStart=/usr/bin/systemd-docker --cgroups name=systemd --env run \
  -p 8080:80 \
  -p 8081:3012 \
  -v /opt/bw-data:/data/ \
  --rm --name %n mprasil/bitwarden:latest
Restart=always
RestartSec=10s
Type=notify
NotifyAccess=all

[Install]
WantedBy=multi-user.target

Adjust the above example as necessary. In particular, pay attention to the -p and -v options, as these control the port and volume bindings between the container and the host.

Explanation of options which may not be self-explanatory:

• A TimeoutStartSec value of 0 stops systemd from considering the service failed after waiting for the default startup time. This is required as it may take a while for the docker pull in ExecStartPre to finish.
• ExecStartPre: Pull the docker tag before running.
• A Type value of notify tells systemd to expect a notification from the service that it is ready.
• A NotifyAccess value of all is required by systemd-docker.

It's possible to directly specify environment variables in the unit file in two ways:

• Using an Environment directive in the [Service] block.
• Using the -e option of docker. In this case, you can omit the --env option shown in the example above.

To verify that your environment variables are set correctly, check the output of systemctl show bitwarden.service for an Environment line.

It's also possible to store environment variables in a separate file using the EnvironmentFile directive in the unit file.

Systemd can source a file of the form:

Key="Value"

However, the systemd project does not mandate where this file should be stored. Consult your distribution's documentation for the best location for this file. For example, RedHat based distributions typically place these files in /etc/sysconfig/

If you're unsure, just create a file as root in /etc/ e.g. /etc/bitwarden.service.conf.

In your unit file, add an EnvironmentFile directive in the [Service] block, the value being the full path to the file created above. Example:

[Unit]
Description=Bitwarden
After=docker.service
Requires=docker.service

[Service]
EnvironmentFile=/etc/bitwarden.service.conf
TimeoutStartSec=0
-snip-

After the above installation and configuration is complete, reload systemd using sudo systemctl daemon-reload. Then, start the Bitwarden service using sudo systemctl start bitwarden.

To have the service start with the system, use sudo systemctl enable bitwarden.

Verify that the container has started using systemctl status bitwarden.

Clone the repository, then from the root of the repository run:

# Build the docker image:
docker build -t bitwarden_rs .

For building binary outside the Docker environment and running it locally without docker, please see build instructions.

Bitwarden_rs is already packaged for Archlinux thanks to @mqus. There is an AUR package (optionally with the vault web interface ) available.

Please check the kubernetes-bitwarden_rs repository for example deployment in Kubernetes. It will setup a fully functional and secure bitwarden_rs application in Kubernetes behind nginx-ingress-controller and AWS ELBv1. It provides little bit more than just simple deployment but you can use all or just part of the manifests depending on your needs and setup.

The sqlite3 database should be backed up using the proper sqlite3 backup command. This will ensure the database does not become corrupted if the backup happens during a database write.

mkdir $DATA_FOLDER/db-backup
sqlite3 /$DATA_FOLDER/db.sqlite3 ".backup '/$DATA_FOLDER/db-backup/backup.sqlite3'"

This command can be run via a CRON job everyday, however note that it will overwrite the same backup.sqlite3 file each time. This backup file should therefore be saved via incremental backup either using a CRON job command that appends a timestamp or from another backup app such as Duplicati. To restore simply overwrite db.sqlite3 with backup.sqlite3 (while bitwarden_rs is stopped).

Running the above command requires sqlite3 to be installed on the docker host system. You can achieve the same result with a sqlite3 docker container using the following command.

docker run --rm --volumes-from=bitwarden bruceforce/bw_backup /backup.sh

You can also run a container with integrated cron daemon to automatically backup your database. See https://gitlab.com/1O/bitwarden_rs-backup for examples.

By default, this is located in $DATA_FOLDER/attachments

This is optional, these are only used to store tokens of users currently logged in, deleting them would simply log each user out forcing them to log in again. By default, these are located in the $DATA_FOLDER (by default /data in the docker). There are 3 files: rsa_key.der, rsa_key.pem, rsa_key.pub.der.

This is optional, the icon cache can re-download itself however if you have a large cache, it may take a long time. By default it is located in $DATA_FOLDER/icon_cache

The root user inside the container is already pretty limited in what it can do, so the default setup should be secure enough. However if you wish to go the extra mile to avoid using root even in container, here's how you can do that:

1. Create a data folder that's owned by non-root user, so you can use that user to write persistent data. Get the user id. In linux you can run stat <folder_name> to get/verify the owner ID.
2. When you run the container, you need to provide the user ID as one of the parameters. Note that this needs to be in the numeric form and not the username, because docker would try to find such user-defined inside the image, which would likely not be there or it would have different ID than your local user and hence wouldn't be able to write the persistent data. This can be done with the --user parameter.
3. bitwarden_rs listens on port 80 inside the container by default, this won't work with non-root user, because regular users aren't allowed to open port below 1024. To overcome this, you need to configure server to listen on a different port, you can use ROCKET_PORT to do that.

Here's sample docker run, that uses user with id 1000 and with the port redirection configured, so that inside container the service is listening on port 8080 and docker translates that to external (host) port 80:

docker run -d --name bitwarden \
  --user 1000 \
  -e ROCKET_PORT=8080 \
  -v /bw-data/:/data/ \
  -p 80:8080 \
  mprasil/bitwarden:latest

Email verification has not yet been implemented, so users just need to enter any random token to continue and the change will be applied.

We use upstream Vault interface directly without any (significant) changes, this is why user is presented with paid options when creating organization. To create an organization, just use the free option, none of the limits apply when using bitwarden_rs as back-end API and after the organization is created it should behave like Enterprise organization.

Invited users will receive an email containing a link that is valid for 5 days. Upon clicking the link, users can choose to create an account or log in. New users will need to create a new account; existing users who are being invited to a new organization will simply need to log in. After either step, they will show up as "Accepted" in the admin interface, and will be added to the organization when an orgnization admin confirms them.

The invited users won't get an invitation email; instead all already registered users will appear in the interface as if they already accepted the invitation. Organization admin then just needs to confirm them to be proper Organization members and to give them access to the shared secrets.

Invited users that aren't registered yet will show up in the Organization admin interface as "Invited". At the same time an invitation record is created that allows the users to register even if user registration is disabled. (unless you disable this functionality) They will automatically become "Accepted" once they register. From there Organization admin can confirm them to give them access to Organization.

It is strongly recommended to run bitwarden_rs service over HTTPS. However the server itself while supporting it does not strictly require such setup. This makes it a bit easier to spin up the service in cases where you can generally trust the connection (internal and secure network, access over VPN,..) or when you want to put the service behind HTTP proxy, that will do the encryption on the proxy end.

Running over HTTP is still reasonably secure provided you use really strong master password and that you avoid using web Vault over connection that is vulnerable to MITM attacks where attacker could inject javascript into your interface. However some forms of 2FA might not work in this setup and Vault doesn't work in this configuration in Chrome.

To ask an question, raising an issue is fine, also please report any bugs spotted here.

If you prefer to chat, we're usually hanging around at #bitwarden_rs:matrix.org room on Matrix. Feel free to join us!