runtimeterror/content/posts/3d-modeling-and-printing-on-chrome-os/index.md
2024-01-18 16:06:53 -06:00

100 lines
No EOL
6.2 KiB
Markdown

---
date: "2020-09-14T08:34:30Z"
thumbnail: qDTXt1jp3.png
featureImage: qDTXt1jp3.png
usePageBundles: true
categories: ChromeOS
tags:
- linux
- chromeos
- crostini
- 3dprinting
title: 3D Modeling and Printing on Chrome OS
---
I've got an Ender 3 Pro 3D printer, a Raspberry Pi 4, and a Pixel Slate. I can't interface directly with the printer over USB from the Slate (plus having to be physically connected to things is like so lame) so I installed [Octoprint on the Raspberry Pi](https://github.com/guysoft/OctoPi) and connected that to the printer's USB interface. This gave me a pretty web interface for controlling the printer - but it's only accessible over the local network. I also installed [The Spaghetti Detective](https://www.thespaghettidetective.com/) to allow secure remote control of the printer, with the added bonus of using AI magic and a cheap camera to detect and abort failing prints.
That's a pretty sweet setup, but I still needed a way to convert STL 3D models into GCODE files which the printer can actually understand. And what if I want to create my own designs?
Enter "Crostini," Chrome OS's [Linux (Beta) feature](https://chromium.googlesource.com/chromiumos/docs/+/master/containers_and_vms.md). It consists of a hardened Linux VM named `termina` which runs (by default) a Debian Buster LXD container named `penguin` (though you can spin up just about any container for which you can find an [image](https://us.images.linuxcontainers.org/)) and some fancy plumbing to let Chrome OS and Linux interact in specific clearly-defined ways. It's a brilliant balance between offering the flexibility of Linux while preserving Chrome OS's industry-leading security posture.
![Screenshot of the 'neofetch' utility](lhTnVwCO3.png)
There are plenty of great guides (like [this one](https://www.computerworld.com/article/3314739/linux-apps-on-chrome-os-an-easy-to-follow-guide.html)) on how to get started with Linux on Chrome OS so I won't rehash those steps here.
One additional step you will probably want to take is make sure that your Chromebook is configured to enable hyperthreading, as it may have [hyperthreading disabled by default](https://support.google.com/chromebook/answer/9340236). Just plug `chrome://flags/#scheduler-configuration` into Chrome's address bar, set it to `Enables Hyper-Threading on relevant CPUs`, and then click the button to restart your Chromebook. You'll thank me later.
![Screenshot of ChromeOS flags page showing that '#scheduler-configuration' is set to 'Enables Hyper-Threading on relevant CPUs](LHax6lAwh.png)
### The Software
I settled on using [FreeCAD](https://www.freecadweb.org/) for parametric modeling and [Ultimaker Cura](https://ultimaker.com/software/ultimaker-cura) for my GCODE slicer, but unfortunately getting them working cleanly wasn't entirely straightforward.
#### FreeCAD
Installing FreeCAD is as easy as:
```shell
sudo apt update # [tl! .cmd:2]
sudo apt install freecad
```
But launching `/usr/bin/freecad` caused me some weird graphical defects which rendered the application unusable. I found that I needed to pass the `LIBGL_DRI3_DISABLE=1` environment variable to eliminate these glitches:
```shell
env 'LIBGL_DRI3_DISABLE=1' /usr/bin/freecad & # [tl! .cmd]
```
To avoid having to type that every time I wished to launch the app, I inserted this line at the bottom of my `~/.bashrc` file:
```shell
alias freecad="env 'LIBGL_DRI3_DISABLE=1' /usr/bin/freecad &"
```
To be able to start FreeCAD from the Chrome OS launcher with that environment variable intact, edit it into the `Exec` line of the `/usr/share/applications/freecad.desktop` file:
```shell
sudo vi /usr/share/applications/freecad.desktop # [tl! .cmd]
```
```ini
[Desktop Entry]
Version=1.0
Name=FreeCAD
Name[de]=FreeCAD
Comment=Feature based Parametric Modeler
Comment[de]=Feature-basierter parametrischer Modellierer
GenericName=CAD Application
GenericName[de]=CAD-Anwendung
Exec=env LIBGL_DRI3_DISABLE=1 /usr/bin/freecad %F # [tl! focus]
Path=/usr/lib/freecad
Terminal=false
Type=Application
Icon=freecad
Categories=Graphics;Science;Engineering
StartupNotify=true
GenericName[de_DE]=Feature-basierter parametrischer Modellierer
Comment[de_DE]=Feature-basierter parametrischer Modellierer
MimeType=application/x-extension-fcstd
```
That's it! Get on with your 3D-modeling bad self.
![Screenshot of FreeCAD showing a 3d model being worked on](qDTXt1jp3.png)
Now that you've got a model, be sure to [export it as an STL mesh](https://wiki.freecadweb.org/Export_to_STL_or_OBJ) so you can import it into your slicer.
#### Ultimaker Cura
Cura isn't available from the default repos so you'll need to download the AppImage from https://github.com/Ultimaker/Cura/releases/tag/4.7.1. You can do this in Chrome and then use the built-in File app to move the file into your 'My Files > Linux Files' directory. Feel free to put it in a subfolder if you want to keep things organized - I stash all my AppImages in `~/Applications/`.
To be able to actually execute the AppImage you'll need to adjust the permissions with 'chmod +x':
```shell
chmod +x ~/Applications/Ultimaker_Cura-4.7.1.AppImage # [tl! .cmd]
```
You can then start up the app by calling the file directly:
```shell
~/Applications/Ultimaker_Cura-4.7.1.AppImage & # [tl! .cmd]
```
AppImages don't automatically appear in the Chrome OS launcher so you'll need to create its `.desktop` file. You can do this manually if you want, but I found it a lot easier to leverage `menulibre`:
```shell
sudo apt update && sudo apt install menulibre # [tl! .cmd:2]
menulibre
```
Just plug in the relevant details (you can grab the appropriate icon [here](https://github.com/Ultimaker/Cura/blob/master/icons/cura-128.png)), hit the filing cabinet Save icon, and you should then be able to search for Cura from the Chrome OS launcher.
![Screenshot demoing the use of 'menulibre' to create the launcher shortcut](VTISYOKHO.png)
![Screenshot of Ultimake Cura software](f8nRJcyI6.png)
From there, just import the STL mesh, configure the appropriate settings, slice, and save the resulting GCODE. You can then just upload the GCODE straight to The Spaghetti Detective and kick off the print.
![A 3d-printed adapter for mounting a rear reflector on a bicycle, designed, sliced, and printed from a Chromebook](2g57odtq2.jpeg)
Nice!