Skip to content

marchanlon/docker-cups-airprint

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

15 Commits
 
 
 
 
 
 
 
 

Repository files navigation

Table of Contents

Modified copy of source code at: https://github.com/quadportnick/docker-cups-airprint

This Ubuntu-based Docker image runs a CUPS instance that is meant as an AirPrint relay for printers that are already on the network but not AirPrint capable. The local Avahi will be utilized for advertising the printers on the network.

The below commands reference a Docker Manifest List at tigerj/cups-airprint built using Docker's BuildKit. Simply running commands using this image will pull the matching image architecture (e.g. amd64, arm32v7, or arm64) based on the hosts architecture. Hence, if you are on a Raspberry Pi the below commands will work the same as if you were on a traditional amd64 desktop/laptop computer. Note: Because the image requires ubuntu as its base image, there is currently no arm32v6 architecture available. This means if your target hardware is a Raspberry Pi Zero or similar arm 6 architecture, this image will not run.

This section will give an overview of the essential options/arguments to pass to docker to successfully run containers from the tigerj/cups-airprint docker image.

To simply do a quick and dirty run of the cups/airprint container:

$ docker run
       -d \
       --name=cups \
       --net=host \
       -v /var/run/dbus:/var/run/dbus \
       --device /dev/bus \
       --device /dev/usb \
       -e CUPSADMIN="admin" \
       -e CUPSPASSWORD="password" \
       tigerj/cups-airprint

To stop the container simply run:

$ docker stop cups

To remove the conainer simply run:

$ docker rm cups

WARNING: Be aware that deleting the container (i.e. cups in the example) will permanently delete the data that docker volume is storing for you. If you want to permanently persist this data, see the docker create example below. Continue reading the Notes section for more details about Docker volumes

  • Notes: The Dockerfile explicitly sets volumes at /config and /services (see these lines). The necessary configurations done by the docker container will be stored in those directories and will persist even if the container stops. Docker will store the contents of these directories (located in the container) in /var/lib/docker/volumes (see for reference Docker Volumes).

Creating a container is often more desirable than directly running it:

$ docker create \
       --name=cups \
       --restart=always \
       --net=host \
       -v /var/run/dbus:/var/run/dbus \
       -v ~/airprint_data/config:/config \
       -v ~/airprint_data/services:/services \
       --device /dev/bus \
       --device /dev/usb \
       -e CUPSADMIN="admin" \
       -e CUPSPASSWORD="password" \
       tigerj/cups-airprint

Follow this with docker start and your cups/airprint printer is running:

$ docker start cups

To stop the container simply run:

$ docker stop cups

To remove the conainer simply run:

$ docker rm cups
  • Notes: As mentioned in the Notes subsection of the Run section, the Dockerfile explicitly declares two volumes at /config and /services inside the container as mount points. Here we actually override the default use of Docker's innate volume management system and declare our own path on the host system to mount the two directories /config and /services. Why? Because now if the container is deleted (for any number of reason ...) the data will persist. Here we chose to mount the internal /config and /services directories to ~/airprint_data/config and ~/airprint_data/services respectively, but these could just as well be anywhere on your file system.
  • --name: gives the container a name making it easier to work with/on (e.g. cups)
  • --restart: restart policy for how to handle restarts (e.g. always restart)
  • --net: network to join (e.g. the host network)
  • -v ~/airprint_data/config:/config: where the persistent printer configs will be stored
  • -v ~/airprint_data/services:/services: where the Avahi service files will be generated
  • -e CUPSADMIN: the CUPS admin user you want created
  • -e CUPSPASSWORD: the password for the CUPS admin user
  • --device /dev/bus: device mounted for interacting with USB printers
  • --device /dev/usb: device mounted for interacting with USB printers

CUPS will be configurable at http://localhost:631 using the CUPSADMIN/CUPSPASSWORD when you do something administrative.

If the /services volume isn't mapping to /etc/avahi/services then you will have to manually copy the .service files to that path at the command line.

  • CUPS doesn't write out printers.conf immediately when making changes even though they're live in CUPS. Therefore it will take a few moments before the services files update
  • Don't stop the container immediately if you intend to have a persistent configuration for this same reason

Here we are going to discuss the most common problems that users have when trying to setup and configure their printer to work with the tigerj/cups-airprint image.

As you might imagine this is the most common problem users have when setting up their printers. While the tigerj/cups-airprint image possesses multiple printer drivers, it most likely does not have every driver for every printer. This issue can be resolved as follows:

  • Figure out what printer driver you need, open an issue about missing driver, necessary package containing said driver will be added to Dockerfile.

Sometimes the right printer driver is installed in the tigerj/cups-airprint Docker image, but the version is not current. This issue may require one of two choices to resolve:

  • Download the docker-cups-airprint git repo and build a fresh image

    • This will pull the most recent versions of the printer driver from the package manager.
  • Download driver DIRECTLY from the manufacturer and add it to the image

    • If building a fresh image does not update the version of the driver, then you will need the most recent printer driver from the manufacturer.

Releases

No releases published

Packages

No packages published

Languages

  • Python 84.7%
  • Dockerfile 9.2%
  • Shell 6.1%