Skip to content

Docker container images for AUTOMATIC1111's Stable Diffusion Web UI

Notifications You must be signed in to change notification settings

dsbaars/aidock-sd-a1111

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

26 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Docker Build

Stable Diffusion WebUI Docker Image

Run Automatic1111 WebUI in a docker container locally or in the cloud.

Note

These images do not bundle models or third-party configurations. You should use a provisioning script to automatically configure your container. You can find examples in config/provisioning.

Quick Start

Simply declare your environment variables and launch a container with docker compose or choose a pre-configured cloud template.

See this section for Stable Diffusion Web UI specific configuration options.

About AUTOMATIC1111 WebUI

A popular and feature-rich web interface for Stable Diffusion based on the Gradio library.

Some Features:

  • Outpainting
  • Inpainting
  • Color Sketch
  • Prompt Matrix
  • Stable Diffusion Upscale
  • Textual Inversion
  • Many more (See projct page)

Pre-built Images

Docker images are built automatically through a GitHub Actions workflow and hosted at the GitHub Container Registry.

An incremental build process is used to avoid needing a huge cache - The following images are used to provide functionality:

Version Tags

The :latest tag points to :latest-cuda

Tags follow these patterns:

CUDA
  • :pytorch-[pytorch-version]-py[python-version]-cuda-[x.x.x]-base-[ubuntu-version]

  • :latest-cuda:pytorch-2.0.1-py3.10-cuda-11.8.0-base-22.04

  • :latest-cuda-jupyter:jupyter-pytorch-2.0.1-py3.10-cuda-11.8.0-base-22.04

ROCm
  • :pytorch-[pytorch-version]-py[python-version]-rocm-[x.x.x]-runtime-[ubuntu-version]

  • :latest-rocm:pytorch-2.0.1-py3.10-rocm-5.4.2-runtime-22.04

  • :latest-rocm-jupyter:jupyter-pytorch-2.0.1-py3.10-rocm-5.4.2-runtime-22.04

CPU
  • :pytorch-[pytorch-version]-py[python-version]-ubuntu-[ubuntu-version]

  • :latest-cpu:pytorch-2.0.1-py3.10-cpu-22.04

  • :latest-cpu-jupyter:jupyter-pytorch-2.0.1-py3.10-cpu-22.04

Browse here for an image suitable for your target environment.

You can also self-build from source by editing .env and running docker compose build.

Supported Python versions: 3.10

Supported Pytorch versions: 2.0.1

Supported Platforms: NVIDIA CUDA, AMD ROCm, CPU

Run Locally

A 'feature-complete' docker-compose.yaml file is included for your convenience. All features of the image are included - Simply edit the environment variables in .env, save and then type docker compose up.

If you prefer to use the standard docker run syntax, the command to pass is init.sh.

Run in the Cloud

This image should be compatible with any GPU cloud platform. You simply need to pass environment variables at runtime.

Note

Please raise an issue on this repository if your provider cannot run the image.

Container Cloud

Container providers don't give you access to the docker host but are quick and easy to set up. They are often inexpensive when compared to a full VM or bare metal solution.

All images built for ai-dock are tested for compatibility with both vast.ai and runpod.io.

Images that include Jupyter are also tested to ensure compatibility with Paperspace Gradient

See a list of pre-configured templates here

Warning

Container cloud providers may offer both 'community' and 'secure' versions of their cloud. If your usecase involves storing sensitive information (eg. API keys, auth tokens) then you should always choose the secure option.

VM Cloud

Running docker images on a virtual machine/bare metal server is much like running locally.

You'll need to:

  • Configure your server
  • Set up docker
  • Clone this repository
  • Edit .envand docker-compose.yml
  • Run docker compose up

Find a list of compatible VM providers here.

Connecting to Your Instance

All services listen for connections at 0.0.0.0. This gives you some flexibility in how you interact with your instance:

Expose the Ports

This is fine if you are working locally but can be dangerous for remote connections where data is passed in plaintext between your machine and the container over http.

SSH Tunnel

You will only need to expose port 22 (SSH) which can then be used with port forwarding to allow secure connections to your services.

If you are unfamiliar with port forwarding then you should read the guides here and here.

Cloudflare Tunnel

You can use the included cloudflared service to make secure connections without having to expose any ports to the public internet. See more below.

Environment Variables

Variable Description
CF_TUNNEL_TOKEN Cloudflare zero trust tunnel token - See documentation.
CF_QUICK_TUNNELS Create ephemeral Cloudflare tunnels for web services (default false)
WEBUI_BRANCH WebUI branch/commit hash. Defaults to master
WEBUI_FLAGS Startup flags. eg. --no-half
WEBUI_PORT WebUI port (default 7860)
GPU_COUNT Limit the number of available GPUs
PROVISIONING_SCRIPT URL of a remote script to execute on init. See note.
RCLONE_* Rclone configuration - See rclone documentation
SKIP_ACL Set true to skip modifying workspace ACL
SSH_PORT Set a non-standard port for SSH (default 22)
SSH_PUBKEY Your public key for SSH
WEB_ENABLE_AUTH Enable password protection for web services (default true)
WEB_USER Username for web services (default user)
WEB_PASSWORD Password for web services (default password)
WORKSPACE A volume path. Defaults to /workspace/
WORKSPACE_SYNC Move mamba environments and services to workspace if mounted (default true)

Environment variables can be specified by using any of the standard methods (docker-compose.yaml, docker run -e...). Additionally, environment variables can also be passed as parameters of init.sh.

Passing environment variables to init.sh is usually unnecessary, but is useful for some cloud environments where the full docker run command cannot be specified.

Example usage: docker run -e STANDARD_VAR1="this value" -e STANDARD_VAR2="that value" init.sh EXTRA_VAR="other value"

Security

By default, all exposed web services other than the port redirect page are protected by HTTP basic authentication.

The default username is user and the password is password.

You can set your credentials by passing environment variables as shown above.

The password is stored as a bcrypt hash. If you prefer not to pass a plain text password to the container you can pre-hash and use the variable WEB_PASSWORD_HASH.

If you are running the image locally on a trusted network, you may disable authentication by setting the environment variable WEB_ENABLE_AUTH=false.

Provisioning script

It can be useful to perform certain actions when starting a container, such as creating directories and downloading files.

You can use the environment variable PROVISIONING_SCRIPT to specify the URL of a script you'd like to run.

The URL must point to a plain text file - GitHub Gists/Pastebin (raw) are suitable options.

If you are running locally you may instead opt to mount a script at /opt/ai-dock/bin/provisioning.sh.

Default provisionining

This repository contains a directory for pre-made provisioning scripts.

All cloud templates will run default.sh unless otherwise indicated or overridden by the user.

This script will download & install the following:

Models

  • Stable Diffusion 1.5
  • Stable Diffusion 2.1
  • Stable Diffusion XL
  • Stable Diffusion XL Refiner

Extensions

  • Controlnet
  • Dynamic Prompts
  • Face Editor
  • Image Browser
  • Regional Prompter
  • Ultimate Upscale

Controlnet (pruned safetensors)

  • Canny
  • Depth
  • Openpose
  • Scribble

Upscalers

  • 4x_foolhardy_Remacri.pth
  • 4x_NMKD-Siax_200k.pth
  • RealESRGAN_x4.pth

VAE

  • vae-ft-ema-560000-ema-pruned.safetensors
  • vae-ft-mse-840000-ema-pruned.safetensors
  • sdxl_vae.safetensors

Remember, you do not have to use this script - Just set PROVISIONING_SCRIPT=https://example.com/your-script.sh.

Note

If configured, sshd, caddy, cloudflared, rclone, port redirector & logtail will be launched before provisioning; Any other processes will launch after.

Warning

Only use scripts that you trust and which cannot be changed without your consent.

Software Management

A small software collection is installed by apt-get to provide basic utility.

All other software is installed into its own environment by micromamba, which is a drop-in replacement for conda/mamba. Read more about it here.

Micromamba environments are particularly useful where several software packages are required but their dependencies conflict.

Installed Micromamba Environments

Environment Packages
base micromamba's base environment
webui AUTOMATIC1111 WebUI and dependencies
python_[ver] python

If you are extending this image or running an interactive session where additional software is required, you should almost certainly create a new environment first. See below for guidance.

Useful Micromamba Commands

Command Function
micromamba env list List available environments
micromamba activate [name] Activate the named environment
micromamba deactivate Close the active environment
micromamba run -n [name] [command] Run a command in the named environment without activating

All ai-dock images create micromamba environments using the --always-softlink flag which can save disk space where multiple environments are available.

To create an additional micromamba environment, eg for python, you can use the following:

micromamba --always-softlink create -y -c conda-forge -c defaults -n [name] python=3.10

Volumes

Data inside docker containers is ephemeral - You'll lose all of it when the container is destroyed.

You may opt to mount a data volume at /workspace - This is a directory that ai-dock images will look for to make downloaded data available outside of the container for persistence.

When the runtime scripts detect a mounted workspace, the stable-diffusion-webui directory will be moved there from its original location in /opt. If the workspace is not mounted then a symlink will be created for convenience.

You can define an alternative path for the workspace directory by passing the environment variable WORKSPACE=/my/alternative/path/ and mounting your volume there. This feature will generally assist where cloud providers enforce their own mountpoint location for persistent storage.

The provided docker-compose.yaml will mount the local directory ./workspace at /workspace.

As docker containers generally run as the root user, new files created in /workspace will be owned by uid 0(root).

To ensure that the files remain accessible to the local user that owns the directory, the docker entrypoint will set a default ACL on the directory by executing the commamd setfacl -d -m u:${WORKSPACE_UID}:rwx /workspace.

If you do not want this, you can set the environment variable SKIP_ACL=true.

Running Services

This image will spawn multiple processes upon starting a container because some of our remote environments do not support more than one container per instance.

All processes are managed by supervisord and will restart upon failure until you either manually stop them or terminate the container.

Note

Some of the included services would not normally be found inside of a container. They are, however, necessary here as some cloud providers give no access to the host; Containers are deployed as if they were a virtual machine.

Stable Diffusion WebUI

The service will launch on port 7860 unless you have specified an override with WEBUI_PORT.

WebUI will be updated to the latest version on container start. You can pin the version to a branch or commit hash by setting the WEBUI_BRANCH variable.

You can set startup flags by using variable WEBUI_FLAGS.

To manage this service you can use supervisorctl [start|stop|restart] webui.

Note

If you have enabled CF_QUICK_TUNNELS a secure https://[random-auto-generated-sub-domain].trycloudflare.com link will be created. You can find it at /var/log/supervisor/quicktunnel-webui.log

Jupyter (with tag jupyter only)

The jupyter server will launch a lab instance unless you specify JUPYTER_MODE=notebook.

Jupyter server will listen on port 8888 unless you have specified an alternative with the JUPYTER_PORT environment variable.

A python kernel will be installed coresponding with the python version of the image.

Jupyter's official documentation is available at https://jupyter.org/

Note

If you have enabled CF_QUICK_TUNNELS a secure https://[random-auto-generated-sub-domain].trycloudflare.com link will be created. You can find it at /var/log/supervisor/quicktunnel-jupyter.log

Caddy

This is a simple webserver acting as a reverse proxy.

Caddy is used to enable basic authentication for all sensitive web services.

Port Redirector

This is a simple list of links to the web services available inside the container.

The service will bind to port 1111.

For each service, you will find a direct link and, if you have set CF_QUICK_TUNNELS=true, a link to the service via a fast and secure Cloudflare tunnel.

Note

This service will not show links to any pre-configured Cloudflare tunnels as the domains are static and already known to the user.

Log Viewer

The web based log viewer will start on port 1122.

It's a very lightweight websocket based stream of the latest updates in /var/log/logtail.log.

This service will also be accessible on any other exposed ports until the program designated to that port is ready to use.

Cloudflared

The Cloudflare tunnel daemon will start if you have provided a token with the CF_TUNNEL_TOKEN environment variable.

This service allows you to connect to your local services via https without exposing any ports.

You can also create a private network to enable remote connecions to the container at its local address (172.x.x.x) if your local machine is running a Cloudflare WARP client.

If you do not wish to provide a tunnel token, you could enable CF_QUICK_TUNNELS which will create a throwaway tunnel for your web services.

Full documentation for Cloudflare tunnels is here.

Note

Cloudflared is included so that secure networking is available in all cloud environments.

Warning

You should only provide tunnel tokens in secure cloud environments.

SSHD

A SSH server will be started if at least one valid public key is found inside the running container in the file /root/.ssh/authorized_keys

The server will bind to port 22 unless you specify variable SSH_PORT.

There are several ways to get your keys to the container.

  • If using docker compose, you can paste your key in the local file config/authorized_keys before starting the container.

  • You can pass the environment variable SSH_PUBKEY with your public key as the value.

  • Cloud providers often have a built-in method to transfer your key into the container

If you choose not to provide a public key then the SSH server will not be started.

To make use of this service you should map port 22 to a port of your choice on the host operating system.

See this guide by DigitalOcean for an excellent introduction to working with SSH servers.

Note

SSHD is included because the end-user should be able to know the version prior to deloyment. Using a providers add-on, if available, does not guarantee this.

Rclone mount

Rclone allows you to access your cloud storage from within the container by configuring one or more remotes. If you are unfamiliar with the project you can find out more at the Rclone website.

Any Rclone remotes that you have specified, either through mounting the config directory or via setting environment variables will be mounted at /workspace/remote/[remote name]. For this service to start, the following conditions must be met:

  • Fuse3 installed in the host operating system
  • Kernel module fuse loaded in the host
  • Host /etc/passwd mounted in the container
  • Host /etc/group mounted in the container
  • Host device /dev/fuse made available to the container
  • Container must run with cap-add SYS_ADMIN
  • Container must run with securiry-opt apparmor:unconfined
  • At least one remote must be configured

The provided docker-compose.yaml includes a working configuration (add your own remotes).

In the event that the conditions listed cannot be met, rclone will still be available to use via the CLI - only mounts will be unavailable.

If you intend to use the rclone create command to interactively generate remote configurations you should ensure port 53682 is accessible. See https://rclone.org/remote_setup/ for further details.

Note

Rclone is included to give the end-user an opportunity to easily transfer files between the instance and their cloud storage provider.

Warning

You should only provide auth tokens in secure cloud environments.

Logtail

This script follows and prints the log files for each of the above services to stdout. This allows you to follow the progress of all running services through docker's own logging system.

If you are logged into the container you can follow the logs by running logtail.sh in your shell.

Open Ports

Some ports need to be exposed for the services to run or for certain features of the provided software to function

Open Port Service / Description
22 SSH server
1111 Port redirector web UI
1122 Log viewer web UI
7860 Stable Diffusion WebUI
53682 Rclone interactive config

Pre-Configured Templates

Vast.​ai


Runpod.​io


Paperspace

  • Create a new notebook with the Start from Scratch template.
  • Select Advanced options
  • In Container Name enter ghcr.io/ai-dock/stable-diffusion-webui:latest-jupyter
  • In Registry Username enter x (Paperspace bug)
  • In Command enter init.sh WORKSPACE=/notebooks PROVISIONING_SCRIPT="https://raw.githubusercontent.com/ai-dock/stable-diffusion-webui/main/config/provisioning/default.sh" WEBUI_FLAGS="--xformers" CF_QUICK_TUNNELS=true

You can use the web UI to do further configuration, or you can supply further environment variables as detailed above.

To launch the UI, open webui.ipynb and run cell 4 (Get secure UI links)

Note

The use of CF_QUICK_TUNNELS enables us to reach the web UI with a link supplied by Cloudflare. You can find the links by running cfqt-url.sh -p 1111.

Warning

Do not attempt to use tunnels to circumvent Paperspace restrictions (eg. SSH & private networking) - You will lose your account.


Note

These templates are configured to use the :latest tag but you are free to change to any of the available CUDA tags listed here

Compatible VM Providers

Images that do not require a GPU will run anywhere - Use an image tagged :*-cpu-xx.xx

Where a GPU is required you will need either :*cuda* or :*rocm* depending on the underlying hardware.

A curated list of VM providers currently offering GPU instances:


The author (@robballantyne) may be compensated if you sign up to services linked in this document. Testing multiple variants of GPU images in many different environments is both costly and time-consuming; This helps to offset costs

About

Docker container images for AUTOMATIC1111's Stable Diffusion Web UI

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Shell 89.0%
  • Jupyter Notebook 6.2%
  • Dockerfile 4.8%