IT/Software/Octoprint: Difference between revisions
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Octoprint | == Octoprint == | ||
An application to control (usb) 3d-printers over the network. | An application to control (usb) 3d-printers over the network. | ||
* send .stl over the network (no sd cards needed) - setup and control the print - monitor the progress of ongoing prints (optionally, webcams can be added to see the visual state) | |||
- setup and control the print | |||
- monitor the progress of ongoing prints (optionally, webcams can be added to see the visual state) | |||
Multi printer support | Multi printer support |
Revision as of 20:25, 2 May 2024
Octoprint
An application to control (usb) 3d-printers over the network.
- send .stl over the network (no sd cards needed) - setup and control the print - monitor the progress of ongoing prints (optionally, webcams can be added to see the visual state)
Multi printer support
- Octoprint only supports one printer per instance - in order to support multiple printers, we can deploy multiple docker containers - the different printers can then be assigned to their respective instance - this example sets up 2 instances for 2 priners, modify it to your needs
Requirements
- Debian/Ubuntu based host (RPi, Laptop, ...) - one USB port per 3d printer - Recommended: network connectivity to host (if not, only local control possible) - Optionally: one webcam per 3d-printer (needs additional USB ports) - Recommended: ssh enabled on host (needed for ansible deployment) - Docker installed [manual install](https://docs.docker.com/engine/install/ubuntu/) / (ansible playbook) - Optionally: Portainer installed [manual install](https://docs.portainer.io/start/install-ce/server/docker/linux) / (ansible playbook)
Deploy Octoprint with 2 printers
- Reference: https://github.com/OctoPrint/octoprint-docker
Deploy with Ansible
- local install of ansible required (ansible) - copy this Ansible Playbook to your local device (pb_docker-octoprint.yml) -
Manual deployment
- modify the docker-compose.yml according to your printers and webcams - make sure each instance uses it's own port - deploy the compose file on the hosts Portainer
Without Portainer:
- copy the compose file to /srv/docker/octoprint/docker-compose.yml on the host - `cd /srv/docker/octoprint` - start the containers with `sudo docker compose up -d` - check if containers are running `sudo docker ps` - check for any errors with `sudo docker compose logs -f`
``` version: '3.9'
services:
octoprint-1: image: octoprint/octoprint restart: unless-stopped ports: - 81:80 # devices: # use `python -m serial.tools.miniterm` to see what the name is of the printer, this requires pyserial # - /dev/ttyACM0:/dev/ttyACM0 # - /dev/video0:/dev/video0 volumes: - octoprint-1:/octoprint # uncomment the lines below to ensure camera streaming is enabled when # you add a video device #environment: # - ENABLE_MJPG_STREAMER=true
octoprint-2: image: octoprint/octoprint restart: unless-stopped ports: - 82:80 # devices: # use `python -m serial.tools.miniterm` to see what the name is of the printer, this requires pyserial # - /dev/ttyACM1:/dev/ttyACM0 # - /dev/video1:/dev/video0 volumes: - octoprint-2:/octoprint # uncomment the lines below to ensure camera streaming is enabled when # you add a video device #environment: # - ENABLE_MJPG_STREAMER=true
volumes:
octoprint-1: octoprint-2:
```