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Version: 3.7.0-beta.79 (Latest)

Nginx + Image Archive

DISCLAIMER! We make no claims or guarantees of this approach's security. If in doubt, enlist the help of an expert and conduct proper audits.

At a certain point, you may want others to have access to your instance of the OHIF Viewer and its medical imaging data. This post covers one of many potential setups that accomplish that. Please note, noticeably absent is user account control.

Do not use this recipe to host sensitive medical data on the open web. Depending on your company's policies, this may be an appropriate setup on an internal network when protected with a server's basic authentication.


Our two biggest hurdles when hosting our image archive and web client are:

  • Risks related to exposing our PACS to the network
  • Cross-Origin Resource Sharing (CORS) requests

Handling Web Requests

We mitigate our first issue by allowing Nginx to handle incoming web requests. Nginx is open source software for web serving, reverse proxying, caching, and more. It's designed for maximum performance and stability -- allowing us to more reliably serve content than Orthanc's built-in server can.

More specifically, we accomplish this by using a reverse proxy to retrieve resources from our image archive (Orthanc), and when accessing its web admin.

A reverse proxy is a type of proxy server that retrieves resources on behalf of a client from one or more servers. These resources are then returned to the client, appearing as if they originated from the proxy server itself.

CORS Issues

Cross-Origin Resource Sharing (CORS) is a mechanism that uses HTTP headers to tell a browser which web applications have permission to access selected resources from a server at a different origin (domain, protocol, port). IE. By default, a Web App located at can't access resources hosted at

We can solve this one of two ways:

  1. Have our Image Archive located at the same domain as our Web App
  2. Add appropriate Access-Control-Allow-* HTTP headers

This solution uses the first approach.

You can read more about CORS in this Medium article: Understanding CORS


This setup allows us to create a setup similar to the one pictured below:


  • All web requests are routed through nginx on our OpenResty image
  • /pacs is a reverse proxy for orthanc's DICOM Web endpoints
  • /pacs-admin is a reverse proxy for orthanc's Web Admin
  • All static resources for OHIF Viewer are served up by nginx when a matching route for that resource is requested

Getting Started


Not sure if you have docker installed already? Try running docker --version in command prompt or terminal


  • Navigate to app folder inside platform
  • then: cd .recipes/OpenResty-Orthanc
  • run: docker-compose up --build
  • Navigate to for the viewer
  • Navigate to for uploading studies

You can see the overview of the mentioned steps:


Exit code 137

This means Docker ran out of memory. Open Docker Desktop, go to the advanced tab, and increase the amount of Memory available.

Cannot create container for service X

Use this one with caution: docker system prune

X is already running

Stop running all containers:

  • Win: docker ps -a -q | ForEach { docker stop $_ }
  • Linux: docker stop $(docker ps -a -q)

Traceback (most recent call last): File "urllib3/", line 670, in urlopen ....

Are you sure your docker is running? see explanation here


After verifying that everything runs with default configuration values, you will likely want to update:

  • The domain:

OHIF Viewer

The OHIF Viewer's configuration is imported from a static .js file. The configuration we use is set to a specific file when we build the viewer, and determined by the env variable: APP_CONFIG. You can see where we set its value in the dockerfile for this solution:

ENV APP_CONFIG=config/docker_openresty-orthanc.js

You can find the configuration we're using here: /public/config/docker_openresty-orthanc.js

To rebuild the webapp image created by our dockerfile after updating the Viewer's configuration, you can run:

  • docker-compose build OR
  • docker-compose up --build


All other files are found in: /docker/OpenResty-Orthanc/

OHIF ViewerdockerfileYou're reading them now!
OpenResty (Nginx)/nginx.conflua-resty-openidc

Next Steps

Deploying to Production

While these configuration and docker-compose files model an environment suitable for production, they are not easy to deploy "as is". You can either:

Adding SSL

Adding SSL registration and renewal for your domain with Let's Encrypt that terminates at Nginx is an incredibly important step toward securing your data. Here are some resources, specific to this setup, that may be helpful:

While we terminate SSL at Nginx, it may be worth using self-signed certificates for communication between services.

Use PostgresSQL w/ Orthanc

Orthanc can handle a large amount of data and requests, but if you find that requests start to slow as you add more and more studies, you may want to configure your Orthanc instance to use PostgresSQL. Instructions on how to do that can be found in the Orthanc Server Book, under "PostgreSQL and Orthanc inside Docker"

Improving This Guide

Here are some improvements this guide would benefit from, and that we would be more than happy to accept Pull Requests for:

  • SSL Support
  • Complete configuration with .env file (or something similar)
  • Any security issues
  • One-click deploy to a cloud provider


Misc. Helpful Commands

Check if nginx.conf is valid:

docker run --rm -t -a stdout --name my-openresty -v $PWD/config/:/usr/local/openresty/nginx/conf/:ro openresty/openresty:alpine-fat openresty -c /usr/local/openresty/nginx/conf/nginx.conf -t

Interact w/ running container:

docker exec -it CONTAINER_NAME bash

List running containers:

docker ps

Referenced Articles

For more documentation on the software we've chosen to use, you may find the following resources helpful:

For a different take on this setup, check out the repositories our community members put together: