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2013-01-27 18:30:07 +01:00
octoprint Added custom controls via configuration file. 2013-01-27 18:28:11 +01:00
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README.md config.ini is now config.yaml 2013-01-27 18:30:07 +01:00
requirements.txt Switched config format from ini to yaml to allow more complex configuration options (in this case for custom controls) 2013-01-22 21:32:14 +01:00
run Fixed startup script 2013-01-18 23:44:11 +01:00

OctoPrint

OctoPrint provides a responsive web interface for controlling a 3D printer (RepRap, Ultimaker, ...). It currently allows

  • uploading .gcode files to the server and managing them via the UI
  • selecting a file for printing, getting the usual stats regarding filament length etc (stats can be disabled for faster initial processing)
  • starting, pausing and canceling a print job
  • while connected to the printer, gaining information regarding the current temperature of both head and bed (if available) in a nice shiny javascript-y temperature graph
  • while printing, gaining information regarding the current progress of the print job (height, percentage etc)
  • reading the communication log and send arbitrary codes to be executed by the printer
  • moving the X, Y and Z axis (jog controls, although very ugly ones right now)
  • optional: visual monitoring of the printer via webcam stream integrated into the UI (using e.g. MJPG-Streamer)
  • optional: creation of timelapse recordings of the printjob via webcam stream (using e.g. MJPG-Streamer) -- currently two timelaspe methods are implemented, triggering a shot on z-layer change or every "n" seconds

The intended usecase is to run OctoPrint on a single-board computer like the Raspberry Pi and a WiFi module, connect the printer to the server and therefore create a WiFi-enabled 3D printer. If you want to add a webcam for visual monitoring and timelapse support, you'll need a powered USB hub.

OctoPrint is Free Software and released under the GNU Affero General Public License V3.

Dependencies

OctoPrint depends on a couple of python modules to do its job. Those are listed in requirements.txt and can be installed using pip:

pip install -r requirements.txt

You should also do this after pulling from the repository, since the dependencies might have changed.

OctoPrint currently only supports Python 2.7.

Usage

Just start the server via

python -m octoprint.server

or alternatively

./run

By default it binds to all interfaces on port 5000 (so pointing your browser to http://127.0.0.1:5000 will do the trick). If you want to change that, use the additional command line parameters host and port, which accept the host ip to bind to and the numeric port number respectively. If for example you want to the server to only listen on the local interface on port 8080, the command line would be

python -m octoprint.server --host=127.0.0.1 --port=8080

or

./run --host=127.0.0.1 --port=8080

Alternatively, the host and port on which to bind can be defined via the configuration.

Configuration

The config-file config.yaml for OctoPrint is expected in its settings folder, which is located at ~/.octoprint on Linux, at %APPDATA%/OctoPrint on Windows and at ~/Library/Application Support/OctoPrint on MacOS.

The following example config should explain the available options:

# Use the following settings to configure the serial connection to the printer
serial:
  # Use the following option to define the default serial port, defaults to unset (= AUTO)
  port: /dev/ttyACM0

  # Use the following option to define the default baudrate, defaults to unset (= AUTO)
  baudrate: 115200

# Use the following settings to configure the web server
server:
  # Use this option to define the host to which to bind the server, defaults to "0.0.0.0" (= all interfaces)
  host: 0.0.0.0

  # Use this option to define the port to which to bind the server, defaults to 5000
  port: 5000

# Use the following settings to configure webcam support
webcam:
  # Use this option to enable display of a webcam stream in the UI, e.g. via MJPG-Streamer.
  # Webcam support will be disabled if not set
  stream: http://<stream host>:<stream port>/?action=stream

  # Use this option to enable timelapse support via snapshot, e.g. via MJPG-Streamer.
  # Timelapse support will be disabled if not set
  snapshot: http://<stream host>:<stream port>/?action=snapshot

  # Path to ffmpeg binary to use for creating timelapse recordings.
  # Timelapse support will be disabled if not set
  ffmpeg: /path/to/ffmpeg

# Use the following settings to enable or disable OctoPrint features
feature:
  # Whether to enable gcode analysis for displaying needed filament and estimated print time. Disabling this (set
  # to false) will speed up the loading of gcode files before printing significantly, but the mentioned statistical
  # data will not be available
  analyzeGcode: true

# Use the following settings to set custom paths for folders used by OctoPrint
folder:
  # Absolute path where to store gcode uploads. Defaults to the uploads folder in the OctoPrint settings folder
  uploads: /path/to/upload/folder

  # Absolute path where to store finished timelapse recordings. Defaults to the timelapse folder in the OctoPrint
  # settings dir
  timelapse: /path/to/timelapse/folder

  # Absolute path where to store temporary timelapse files. Defaults to the timelapse/tmp folder in the OctoPrint
  # settings dir
  timelapse_tmp: /path/timelapse/tmp/folder

# Use the following settings to add custom controls to the "Controls" tab within OctoPrint
#
# Controls consist at least of a name, a type and type-specific further attributes. Currently recognized types are
# - section: Creates a visual section in the UI, you can use this to separate functional blocks
# - command: Creates a button that sends a defined GCODE command to the printer when clicked
# - parametrized_command: Creates a button that sends a parametrized GCODE command to the printer, parameters
#   needed for the command are added to the UI as input fields and are named
#
# The following example defines a control for enabling the cooling fan with a variable speed defined by the user
# (default 255) and a control for disabling the fan, all within a section named "Fan".
controls:
  - name: Fan
    type: section
    children:
      - name: Enable Fan
        type: parametrized_command
        command: M106 S%(speed)s
        input:
          - name: Speed (0-255)
            parameter: speed
            default: 255
      - name: Disable Fan
        type: command
        command: M107

Setup on a Raspberry Pi running Raspbian

I currently run the OctoPrint on a Raspberry Pi running Raspbian (http://www.raspbian.org/). I recommend to use a maximum baudrate of 115200 baud in your printer firmware, as the used Python serial module does not support 250000 baud in all Linux distributions yet (Raspbian being not one of them, at least according to my experience).

For the basic package you'll need Python 2.7 (should be installed by default), pip and a couple of dependencies listed in requirements.txt:

cd ~
sudo apt-get install python-pip git
git clone https://github.com/foosel/OctoPrint.git
cd OctoPrint
sudo pip install -r requirements.txt

You should then be able to start the OctoPrint server:

pi@raspberrypi ~/OctoPrint $ ./run
 * Running on http://0.0.0.0:5000/

If you also want webcam and timelapse support, you'll need to download and compile MJPG-Streamer:

cd ~
sudo apt-get install subversion libjpeg8-dev imagemagick libav-tools
wget -Omjpg-streamer.tar.gz http://mjpg-streamer.svn.sourceforge.net/viewvc/mjpg-streamer/mjpg-streamer/?view=tar
tar xfz mjpg-streamer.tar.gz
cd mjpg-streamer
make

This should hopefully run through without any compilation errors. You should then be able to start the webcam server:

pi@raspberrypi ~/mjpg-streamer $ ./mjpg_streamer -i "./input_uvc.so" -o "./output_http.so"
MJPG Streamer Version: svn rev:
 i: Using V4L2 device.: /dev/video0
 i: Desired Resolution: 640 x 480
 i: Frames Per Second.: 5
 i: Format............: MJPEG
[...]
 o: www-folder-path...: disabled
 o: HTTP TCP port.....: 8080
 o: username:password.: disabled
 o: commands..........: enabled

If you now point your browser to http://<your Raspi's IP>:8080/?action=stream, you should see a moving picture at 5fps. Open ~/.octoprint/config.ini and add the following lines to it:

webcam:
  stream: http://<your Raspi's IP>:8080/?action=stream
  snapshot: http://127.0.0.1:8080/?action=snapshot
  ffmpeg: /usr/bin/avconv

Restart the OctoPrint server and reload its frontend. You should now see a Webcam tab with content.

If everything works, add the startup commands to /etc/rc.local.

Credits

The OctoPrint started out as a fork of Cura (https://github.com/daid/Cura) for adding a web interface to its printing functionality and was originally named Printer WebUI. It still uses Cura's communication code for talking to the printer, but has been reorganized to only include those parts of Cura necessary for its targeted usecase.

It also uses the following libraries and frameworks for backend and frontend:

The following software is recommended for Webcam support on the Raspberry Pi:

I also want to thank Janina Himmen for providing the kick-ass logo!

It so happens that I needed a favicon and also OctoPrint's first name -- Printer WebUI -- simply lacked a certain coolness to it. So I asked The Internet(tm) for advise. After some brainstorming, the idea of a cute Octopus watching his print job remotely through a crystal ball was born... or something like that.

What do I have to do after the rename from Printer WebUI to OctoPrint?

If you did checkout OctoPrint from its previous location at https://github.com/foosel/PrinterWebUI.git, you'll have to update your so-called remote references in git in order to make git pull use the new repository location as origin.

To do so you'll only need to execute the following command in your OctoPrint/PrinterWebUI folder:

git remote set-url origin https://github.com/foosel/OctoPrint.git

After that you might also want to rename your base directory (which probably still is called PrinterWebUI) to OctoPrint and delete the folder printer_webui in your base folder (which stays there thanks to Python's compiled bytecode files even after a rename of the Python package to octoprint).

After that you are set, the configuration files are migrated automatically.