This is the primary image of octoprint/octoprint. It is designed to work similarly, and support the
same out of the box features as the octopi raspberry-pi machine image, using docker.
-
latest,1.4.2,1.4,1(Dockerfile)
We recommend you use docker-compose to run octoprint via docker, and have included a recommended docker-compose.yml file for your convenience.
Save the contents of this file on your machine as docker-compose.yml, and then
run docker-compose up -d.
Open octoprint at http://<octoprint_ip_or_url
See Initial Setup for configuration values to use during your fist launch of OctoPrint using docker.
In order to use the webcam, you'll need to make sure the webcam service is enabled.
This is done by setting the environment variable ENABLE_MJPG_STREAMER=true in your
docker run command, or in the docker-compose.yml file.
You'll also need to add --device /dev/video0:/dev/video0 to your docker run, or ensure
it's listed in the devices array in your docker-compose.yml.
If you map a video device other than /dev/video0, you will additionally need to set an
environment variable for CAMERA_DEV to match the mapped device mapping.
See container environment based configs for a full list of webcam configuration options configured with docker.
Use 798D the following values in the webcam & timelapse settings screen of the initial setup:
| Setting | Value |
|---|---|
| Stream URL | /webcam/?action=stream |
| Snapshot URL | http://localhost:8080/?action=snapshot |
| Path to FFMPEG | /usr/bin/ffmpeg |
There are configuration values that you pass using container --environment options.
Listed below are the options and their defaults. These are implicit in example docker-compose.yml,
and if you wish to change them, refer to the docker-compose docs on setting environment variables.
| variable | default |
|---|---|
CAMERA_DEV |
/dev/video0 (see note) |
MJPG_STREAMER_INPUT |
-y -n -r 640x48 |
ENABLE_MJPG_STREAMER |
false |
note: You will still need to declare the device mapping in your docker-compose file or docker command,
even if you explicitly declare the CAMERA_DEV. The value of CAMERA_DEV is used in starting the mjpg-streamer
service, whereas the devices mapping is used by docker to make sure the container has access to the device.
For example, if you change the CAMERA_DEV to be /dev/video1, you would also need to map /dev/video1:/dev/video1
in your container.
This docker-compose file also contains a container based instance of vscode, accessible via your browser at the same url as your octoprint instance, allowing you to edit configuration files without needing to login to your octoprint host.
To make use of this editor, just uncomment the indicated lines in your docker-compose.yml then run the following commands:
docker-compose up -d config-editor
Now go to http://<octoprint_ip_or_url>:8443/?folder=/config in your browser to edit your octoprint files!
Use the 'explorer' (accessible by clicking the hamburger menu icon) to explore folder and files to load
into the editor workspace.
All configuration files are in the /config folder, and the active configuration will be accessible at /config/config.yaml
When you're done, we recommend you stop and remove this service/container:
docker-compose stop config-editor && docker-compose rm config-editor
For full documentation about the config editor, see the docs for the product at github.com/cdr/code-server.
If you prefer to run without docker-compose, first create an octoprint docker volume
on the host, and then start your container:
docker volume create octoprint
docker run -d -v octoprint:/octoprint --device /dev/ttyACM0:/dev/ttyACM0 --device /dev/video0:/dev/video0 -e ENABLE_MJPG_STREAMER=true -p 80:80 --name octoprint octoprint/octoprint
If you would like to build the docker image yourself, please read CONTRIBUTING.md for details on how to do so.