Self-hostable clone of lazydocker for the web.
Manage your Docker fleet with ease

Table of Contents - Install - Configure

• Introduction
• Features
• Deployment and Examples
  • Deploy with Docker
  • Deploy with Docker Compose
  • Deploy as a standalone application
    • Using an existing binary
    • Building the binary manually
• Multi-node deployment
  • General information
  • Setup
• Multi-host deployment
  • General information
  • Setup
• Configuration
• Theming
• Troubleshoot
• Security
• Disclaimer
• Contribute
• Credits

Isaiah is a self-hostable service that enables you to manage all your Docker resources on a remote server. It is an attempt at recreating the lazydocker command-line application from scratch, while making it available as a web application without compromising on the features.

Isaiah has all these features implemented :

• For containers :
  • Bulk stop, Bulk remove, Prune
  • Remove, Pause, Unpause, Restart, Rename, Open in browser
  • Open a shell inside the container (from your browser)
  • Inspect (live logs, stats, env, full configuration, top)
• For images :
  • Prune
  • Remove
  • Run (create and start a container using the image)
  • Open on Docker Hub
  • Pull a new image (from Docker Hub)
  • Bulk pull all latest images (from Docker Hub)
  • Inspect (full configuration, layers)
• For volumes :
  • Prune
  • Remove
  • Browse volume files (from your browser, via shell)
  • Inspect (full configuration)
• For networks :
  • Prune
  • Remove
  • Inspect (full configuration)
• Built-in automatic Docker host discovery
• Built-in authentication by master password (supplied raw or sha256-hashed)
• Built-in terminal emulator (with support for opening a shell on the server)
• Responsive for Desktop, Tablet, and Mobile
• Support for multiple layouts
• Support for custom CSS theming (with variables for colors already defined)
• Support for keyboard navigation
• Support for mouse navigation
• Support for search through Docker resources and container logs
• Support for ascending and descending sort by any supported field
• Support for customizable user settings (line-wrap, timestamps, prompt, etc.)
• Support for custom Docker Host / Context.
• Support for extensive configuration with .env
• Support for HTTP and HTTPS
• Support for standalone / proxy / multi-node / multi-host deployment

On top of these, one may appreciate the following characteristics :

• Written in Go (for the server) and Vanilla JS (for the client)
• Holds in a ~4 MB single file executable
• Holds in a ~4 MB Docker image
• Works exclusively over Websocket, with very little bandwidth usage
• Uses the official Docker SDK for 100% of the Docker features

For more information, read about Configuration and Deployment.

You can run Isaiah with Docker on the command line very quickly.

You can use the following commands :

# Create a .env file
touch .env

# Edit .env file ...

# Option 1 : Run Isaiah attached to the terminal (useful for debugging)
docker run \
  --env-file .env \
  -v /var/run/docker.sock:/var/run/docker.sock:ro \
  -p <YOUR-PORT-MAPPING> \
  mosswill/isaiah

# Option 2 : Run Isaiah as a daemon
docker run \
  -d \
  --env-file .env \
  -v /var/run/docker.sock:/var/run/docker.sock:ro \
  -p <YOUR-PORT-MAPPING> \
  mosswill/isaiah

# Option 3 : Quick run with default settings
docker run -v /var/run/docker.sock:/var/run/docker.sock:ro -p 3000:3000 mosswill/isaiah

To help you get started quickly, multiple example docker-compose files are located in the "examples/" directory.

Here's a description of every example :

• docker-compose.simple.yml: Run Isaiah as a front-facing service on port 80., with environment variables supplied in the docker-compose file directly.

• docker-compose.volume.yml: Run Isaiah as a front-facing service on port 80, with environment variables supplied as a .env file mounted as a volume.

• docker-compose.ssl.yml: Run Isaiah as a front-facing service on port 443, listening for HTTPS requests, with certificate and private key provided as mounted volumes.

• docker-compose.proxy.yml: A full setup with Isaiah running on port 80, behind a proxy listening on port 443.

• docker-compose.traefik.yml: A sample setup with Isaiah running on port 80, behind a Traefik proxy listening on port 443.

• docker-compose.agent.yml: A sample setup with Isaiah operating as an Agent in a multi-node deployment.

• docker-compose.host.yml: A sample setup with Isaiah expecting to communicate with other hosts in a multi-host deployment.

When your docker-compose file is on point, you can use the following commands :

# Option 1 : Run Isaiah in the current terminal (useful for debugging)
docker-compose up

# Option 2 : Run Isaiah in a detached terminal (most common)
docker-compose up -d

# Show the logs written by Isaiah (useful for debugging)
docker logs <NAME-OF-YOUR-CONTAINER>

Warning : Always make sure that your Docker Unix socket is mounted, else Isaiah won't be able to communicate with the Docker API.

You can deploy Isaiah as a standalone application, either by downloading an existing binary that fits your architecture, or by building the binary yourself on your machine.

An install script was created to help you install Isaiah in one line, from your terminal :

As always, check the content of every file you pipe in bash

curl https://raw.githubusercontent.com/will-moss/isaiah/master/scripts/remote-install.sh | bash

This script will try to automatically download a binary that matches your operating system and architecture, and put it in your /usr/[local/]bin/ directory to ease running it. Later on, you can run :

# Create a new .env file
touch .env

# Edit .env file ...

# Run Isaiah
isaiah

In case you feel uncomfortable running the install script, you can head to the Releases, find the binary that meets your system, and install it yourself.

In this case, make sure that your system meets the following requirements :

• You have Go 1.21 installed
• You have Node 20+ installed along with npm and npx

When all the prerequisites are met, you can run the following commands in your terminal :

As always, check the content of everything you run inside your terminal

# Retrieve the code
git clone https://github.com/will-moss/isaiah
cd isaiah

# Run the local install script
./scripts/local-install.sh

# Move anywhere else, and create a dedicated directory
cd ~
mkdir isaiah-config
cd isaiah-config

# Create a new .env file
touch .env

# Edit .env file ...

# Option 1 : Run Isaiah in the current terminal
isaiah

# Option 2 : Run Isaiah as a background process
isaiah &

# Option 3 : Run Isaiah using screen
screen -S isaiah
isaiah
<CTRL+A> <D>

# Optional : Remove the cloned repository
# cd <back to the cloned repository>
# rm -rf ./isaiah

The local install script will try to perform a production build on your machine, and move isaiah to your /usr/[local/]bin/ directory to ease running it. In more details, the following actions are performed :

• Local install of Babel, LightningCSS, Less, and Terser
• Prefixing, Transpilation, and Minification of CSS and JS assets
• Building of the Go source code into a single-file executable (with CSS and JS embed)
• Cleaning of the artifacts generated during the previous steps
• Removal of the previous isaiah executable, if any in /usr/[local/]bin/
• Moving the new isaiah executable in /usr/[local/]bin with 755 permissions.

If you encounter any issue during this process, please feel free to tweak the install script or reach out by opening an issue.

Using Isaiah, you can manage multiple nodes with their own distinct Docker resources from a single dashboard.

Before delving into that part, please get familiar with the general information below.

You may find these information useful during your setup and reading :

• Isaiah distinguishes two types of nodes : Master and Agent.
• The word node refers to any machine (virtual or not) holding Docker resources.
• The Master node has three responsabilities :
  • Serving the web interface.
  • Managing the Docker resources inside the environment on which it is already installed.
  • Acting as a central proxy between the client (you) and the remote Agent nodes.
• The Master node has the following characteristics :
  • There should be only one Master node in a multi-node deployment.
  • The Master node should be the only part of your deployment that is publicly exposed on the network.
• The Agent nodes have the following characteristics :
  • They are headless instances of Isaiah, and they can't exist without a Master node.
  • As with the Master node, they have their own authentication if you don't disable it explicitly.
  • On startup, they perform registration with their Master node using as a Websocket client
  • For as long as the Master node is alive, a Websocket connection remains established between them.
  • The Agent node should never be publicly exposed on the network.
  • The Agent node never communicates with the client (you). Everything remains between the nodes.
  • There is no limit to how many Agent nodes can connect to a Master node.

In other words, one Master acts as a Proxy between the Client and the Agents.
For example, when a Client wants to stop a Docker container inside an Agent, the Client first requests it from Master. Then, Master forwards it to the designated Agent. When the Agent has finished, they reply to Master, and Master forwards that response to the initial Client.

Schematically, it looks like this :

• Client ------------> Master : Stop container C-123 on Agent AG-777
• Master ------------> Agent : Stop container C-123
• Agent ------------> Master : Container C-123 was stopped
• Master ------------> Client : Container C-123 was stopped on Agent AG-777

Now that we understand how everything works, let's see how to set up a multi-node deployment.

First, please ensure the following :

• Your Master node is running, exposed on the network, and available in your web browser
• Your Agent node has Isaiah installed and configured with the following settings :
  • SERVER_ROLE equal to Agent
  • MASTER_HOST configured to reach the Master node
  • MASTER_SECRET equal to the AUTHENTICATION_SECRET setting on the Master node, or empty when authentication is disabled
  • AGENT_NAME equal to a unique string of your choice

Then, launch Isaiah on each Agent node, and you should see logs indicating whether connection with Master was established. Eventually, you will see Master or The name of your agent in the lower right corner of your screen as agents register.

If encounter any issue, please read the Troubleshoot section.

You may want to note that you don't need to expose ports on the machine / Docker container running Isaiah when it is configured as an Agent.

Using Isaiah, you can manage multiple hosts with their own distinct Docker resources from a single dashboard.

Before delving into that part, please get familiar with the general information below.

The big difference between multi-node and multi-host deployments is that you won't need to install Isaiah on every single node if you are using multi-host. In this setup, Isaiah is installed only on one server, and communicates with other Docker hosts directly over TCP / Unix sockets. It makes it easier to manage multiple remote Docker environments without having to setup Isaiah on all of them.

Please note that, in a multi-host setup, there must be a direct access between the main host (where Isaiah is running) and the other ones. Usually, they should be on the same network, or visible through a secured gateway / VPN / filesystem mount.

Let's see how to set up a multi-host deployment.

In order to help you get started, a sample file was created.

First, please ensure the following :

• Your Master host is running, exposed on the network, and available in your web browser
• Your Master host has the setting MULTI_HOST_ENABLED set to true.
• Your Master host has access to the other Docker hosts over TCP / Unix socket.

Second, please create a docker_hosts file next to Isaiah's executable, using the sample file cited above:

• Every line should contain two strings separated by a single space.
• The first string is the name of your host, and the second string is the path to reach it.
• The path to your host should look like this : [PROTOCOL]://[URI]
• Example 1 : Local unix:///var/run/docker.sock
• Example 2 : Remote tcp://my-domain.tld:4382

If you're using Docker, you can mount the file at the root of the filesystem, as in :
docker ... -v my_docker_hosts:/docker_hosts ...

Finally, launch Isaiah on the Master host, and you should see logs indicating whether connection with remote hosts was established. Eventually, you will see Master with The name of your host in the lower right corner of your screen.

To run Isaiah, you will need to set the following environment variables in a .env file located next to your executable :

Note : Regular environment variables provided on the commandline work too

Note : Boolean values are case-insensitive, and can be represented via "ON" / "OFF" / "TRUE" / "FALSE" / 0 / 1.

Note : To sort rows in reverse using the SORTBY_ parameters, prepend your field with the minus symbol, as in -Name

Note : Use either AUTHENTICATION_SECRET or AUTHENTICATION_HASH but not both at the same time.

Note : You can generate a sha256 hash using an online tool, or using the following commands : On OSX : echo -n your-secret | shasum -a 256 On Linux : echo -n your-secret | sha256sum

Additionally, once Isaiah is fully set up and running, you can open the Parameters Manager by pressing the X key. Using this interface, you can toggle the following options based on your preferences :

Note : You must have Isaiah open in your browser and be authenticated to access these options. Once set up, these options will be saved to your localStorage.

You can customize Isaiah's web interface using your own custom CSS. At runtime, Isaiah will look for a file named custom.css right next to the executable. If this file exists, it will be loaded in your browser and it will override any existing CSS rule.

In order to help you get started, a sample file was created. It shows how to modify the CSS variables responsible for the colors of the interface. (All the values are the ones used by default) You can copy that file, update it, and rename it to custom.css.

If you're using Docker, you should mount a custom.css file at the root of your container's filesystem. Example : docker ... -v my-custom.css:/custom.css ...

Finally, you will find below a table that describes what each CSS color variable means :

On a side note, creating custom layouts using only CSS isn't implemented yet as it requires interaction with Javascript. That said, implementing this feature should be quick and simple since the way layouts are managed currently is already modular.

Ultimately, please note that Isaiah already comes with three themes : dawn, moon, and the default one. The first two themes are based on Rosé Pine, and new themes may be implemented later.

Should you encounter any issue running Isaiah, please refer to the following common problems with their solutions.

Please make sure that the following requirements are met :

• If Isaiah runs as a standalone application without proxy :

  • Make sure your server / firewall accepts incoming connections on Isaiah's port.
  • Make sure your DNS configuration is correct. (Usually, such record should suffice : A isaiah XXX.XXX.XXX.XXX for https://isaiah.your-server-tld)
  • Make sure your .env file is well configured according to the Configuration section.

• If Isaiah runs on Docker :

  • Perform the previous (standalone) verifications first.
  • Make sure you mounted your server's Docker Unix socket onto the container that runs Isaiah (/var/run/docker.sock)
  • Make sure your Docker container is accessible remotely

• If Isaiah runs behind a proxy :

  • Perform the previous (standalone) verifications first.
  • Make sure that SERVER_PORT (Isaiah's port) are well set in .env.
  • Check your proxy forwarding rules.

In any case, the crucial part is Configuration and making sure your Docker / Proxy setup is correct as well.

Please note that the emulated shell works by performing the following steps :

• Open a headless terminal on the remote server / inside the remote Docker container.
• Capture standard output, standard error, and bind standard input to the web interface.
• Display standard output and standard error on the web interface as they are streamed over Websocket from the terminal.

According to this implementation, the remote terminal never receives key presses. It only receives commands.

Also, the following techniques are used to try to enhance the user experience on the web interface :

• Enable clearing the shell (HTML) screen via "Ctrl+L" (while the real terminal remains untouched)
• Enable quitting the (HTML) shell via "Ctrl+D" (by sending an "exit" command to the real terminal)
• Handle "command mirror" by appending "# ISAIAH" to every command sent by the user (to distinguish it from command output)
• Handle both "\r" and "\n" newline characters
• Use a time-based approach to detect when a command is finished if it doesn't output anything that shows clear ending
• Remove all escape sequences meant for coloring the terminal output
• Handle up and down arrow keys to cycle through commands history locally

Therefore it appears that, unless we use a VNC-like solution, the emulation can neither be enhanced nor use keyboard-based features (such as tab completion).

Unless a contributor points the project in the right direction, and as far as my skills go, I personally believe that the current implementation has reached its maximum potential.

I leave here a few ideas that I believe could be implemented, but may require more knowledge, time, testing :

• Convert escape sequences to CSS colors
• Wrap every command in a "block" (begin - command - end) to easily distinguish user-sent commands from output
• Sending to the real terminal the key presses captured from the web (a.k.a sending key presses to a running process)

Ultimately, please also note that in a multi-node / multi-host setup, the extra network latency and unexpected buffering from remote terminals may cause additional display artifacts.

The default commands used to spawn a shell, although being more or less standard, may not fit your environment. In this case, please edit the TTY_SERVER_COMMAND and TTY_CONTAINER_COMMAND settings to define a command that works better in your setup.

This is a known incident that happens when the Websocket server receives a data message that exceeds its maximum read size. You should be able to fix that by updating the SERVER_MAX_READ_SIZE setting to a higher value (default is 1024 bytes). This operation shouldn't cause any problem or impact performances.

In such a case, please check the icon in the lower right corner. If you see an orange warning symbol, it means that the connection with the server was lost. When the connection is lost, all inputs are disabled, until the connection is reestablished (a new attempt is performed every second).

This incident arises when a crash occurs while inside a shell or performing a Docker command. The quickest "fix" for that is to refresh your browser tab (Ctrl+R/Cmd+R).

The real "fix" (if any) could be to implement a "timeout" (client-side or server-side) after which, the "loading" state is automatically discarded

If you encounter this incident consistently, please reach out by opening an issue so we look deeper into that part

If you haven't already, please read about the SERVER_MAX_READ_SIZE setting in the Configuration section.

That incident occurs when the Websocket messages sent from the client to the server are too big. The server's reaction to overly large messages sent over Websocket is to close the connection with the client. When that happens, Isaiah (as a client in your browser) automatically reopens a connection with the server, hence explaining the "crash-restart" cycle.

Please note that you can horizontally scroll the mobile controls located in the bottom part of your screen to reveal all of them. If, for any reason, you still encounter a case when a feature is missing on your mobile device, please open an issue indicating the browser you're using, your screen's viewport size, and the model of your phone.

This issue arises when the authentication settings between Master and Agent nodes are incompatible.
To fix it, please make sure that :

• When authentication is enabled on Master, the Agent has a MASTER_SECRET setting defined.
• When authentication is disabled on Master, the Agent has no MASTER_SECRET setting defined.

Also don't forget to restart your nodes when changing settings.

Please feel free to open an issue, explaining what happens, and describing your environment.

Due to the very nature of Isaiah, I can't emphasize enough how important it is to harden your server :

• Always enable the authentication (with AUTHENTICATION_ENABLED and AUTHENTICATION_SECRET settings) unless you have your own authentication mechanism built into a proxy.
• Always use a long and secure password to prevent any malicious actor from taking over your Isaiah instance.
• You may also consider putting Isaiah on a private network accessible only through a VPN.

Keep in mind that any breach or misconfiguration on your end could allow a malicious actor to fully take over your server.

I believe that, although we're both in the open-source sphere and have all the best intentions, it is important to state the following :

• Isaiah isn't a competitor or any attempt at replacing the lazydocker project. Funnily enough, I'm myself more comfortable running lazydocker through SSH rather than in a browser.
• I've browsed almost all the open issues on lazydocker, and tried to implement and improve what I could (hence the TTY_CONTAINER_COMMAND variable, as an example, or even the Image pulling feature).
• Isaiah was built from absolute zero (for both the server and the client), and was ultimately completed using knowledge from lazydocker that I'm personally missing (e.g. the container states and icons).
• Before creating Isaiah, I tried to "serve lazydocker over websocket" (trying to send keypresses to the lazydocker process, and retrieving the output via Websocket), but didn't succeed, hence the full rewrite.
• I also tried to start Isaiah from the lazydocker codebase and implement a web interface on top of it, but it seemed impractical or simply beyond my skills, hence the full rewrite.

Ultimately, thanks to the people behind lazydocker both for the amazing project (that I'm using daily) and for paving the way for Isaiah.

PS : Please also note that Isaiah isn't exactly 100% feature-equivalent with lazydocker (e.g. charts are missing) PS2 : What spurred me to build Isaiah in the first place is a bunch of comments on the Reddit self-hosted community, stating that Portainer and other available solutions were too heavy or hard to use. A Redditor said that having lazydocker over the web would be amazing, so I thought I'd do just that.

This is one of my first ever open-source projects, and I'm not a Docker / Github / Docker Hub / Git guru yet.

If you can help in any way, please do! I'm looking forward to learning from you.

From the top of my head, I'm sure there's already improvement to be made on :

• Terminology (using the proper words to describe technical stuff)
• Coding practices (e.g. writing better comments, avoiding monkey patches)
• Shell emulation (e.g. improving on what's done already)
• Release process (e.g. making explicit commits, pushing Docker images properly to Docker Hub)
• Github settings (e.g. using discussions, wiki, etc.)
• And more!

Hey hey ! It's always a good idea to say thank you and mention the people and projects that help us move forward.

Big thanks to the individuals / teams behind these projects :

• laydocker : Isaiah wouldn't exist if Lazydocker hadn't been created prior, and to say that it is an absolutely incredible and very advanced project is an understatement.
• Heroicons : For the great icons.
• Melody : For the awesome Websocket implementation in Go.
• GoReleaser : For the amazing release tool.
• The countless others!

And don't forget to mention Isaiah if it makes your life easier!