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@ -14,13 +14,95 @@ tags:
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- linux
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- tailscale
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---
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As another step in my mission to *Tailscale all the things!*, I recently installed [Tailscale](/tags/tailscale) on my robot vacuum.
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Continuing my mission to *[Tailscale](/tags/tailscale/) all the things!*, I recently added my robot vacuum (a [Roborock S5 Max](https://us.roborock.com/pages/roborock-s5-max)) to my tailnet.
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Okay, I didn't *just* install Tailscale on the robot. I also loaded it with software that lets me control it locally, freeing it from its cloud-based control.
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Okay, installing Tailscale wasn't the *only* thing I did. I also loaded it with software to control it locally so that it no longer has to talk to The Cloud. (And then I installed Tailscale because I can.)
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I was inspired to give this a go after reading the [Tailscale sucks](https://tailscale.dev/blog/tailscale-sucks) post on the Tailscale developer blog. That post pointed me to a few very helpful projects:
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I was inspired to give this a go after reading the [Tailscale sucks](https://tailscale.dev/blog/tailscale-sucks) post on the Tailscale developer blog. That post educated me about a couple of very helpful projects:
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- [Valetudo](https://valetudo.cloud/), a web-based front-end for robot vacuums by Sören Beye
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- [DustBuilder](https://builder.dontvacuum.me/), a custom firmware builder for a variety of robot vacuums by Dennis Giese
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In addition to the "product" provided by each of these projects, they are both also full of helpful knowledge.
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Both sites also include a wealth of documentation to guide you along your robot-hacking journey, including a [list of supported robots](https://valetudo.cloud/pages/general/supported-robots.html) and a [detailed technical/feature comparison of a variety of robots[(https://robotinfo.dev/).
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This post will detail all the steps I took to hack my robot, install Tailscale, configure Valetudo, and get it connected to Home Assistant. (I also semi-live-blogged the process on [social.lol](https://social.lol/@jbowdre/112911333551545789)).
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### Getting started
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I started by looking at the Valetudo [supported robots list](https://valetudo.cloud/pages/general/supported-robots.html) to see that `Rooting [my S5 Max] requires full disassembly.` Clicking through to the [FEL rooting instructions](https://valetudo.cloud/pages/installation/roborock.html#fel) further warned that `This rooting method is not suited for beginners.`.
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> Don't threaten me with a good time.
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Before getting into the robots guts, though, I went ahead and requested the appropriate firmware so that I wouldn't have to wait on it later.
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### Firmware generation
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I went to the [Dustbuilder](https://builder.dontvacuum.me/) page, scrolled until I found the entry for the S5 Max (which also goes by `s5e` in some circles), and clicked to access [that builder](https://builder.dontvacuum.me/_s5e.html).
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![Dustbuilder interface showing that I've selected to include an RSA public key for SSH and (importantly) chosen the option to "Create FEL image".](dustbuilder.png)
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I generated a new RSA keypair to use for the initial SSH connection:
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```shell
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ssh-keygen -t rsa -f ~/.ssh/id_rsa-robot # [tl! .cmd]
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```
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And I uploaded the resulting `id_rsa-robot.pub` to the Dustbuilder interface.
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I also made sure to select the `Create FEL image (for initial rooting via USB)` option. Otherwise I left the other options alone, entered a Cloaked email address, and clicked the **Create job** button to kick things off.
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### Robot surgery
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While my firmware was in the oven I went ahead and began the disassembly process. I started by watching [a disassembly video](https://www.youtube.com/watch?v=68flJFSOK8A) but quickly realized that my S5 Max apparently differs from the one being taken apart: after carefully prying off the top cover I found that my robot doesn't have a set of screws surrounding the spinning laser assembly. The inner top cover is a single, solid piece of plastic. So I ditched the video and forged my own path.
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MORE DISASSEMBLY DETAILS HERE
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### Launching the hack
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I checked my email and found that I had indeed received notification of a successful Dustbuilder build so I downloaded those files:
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```shell
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ls -l robo* # [tl! .cmd .nocopy:1,2]
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.rw-r--r-- 5.3M john 9 Aug 19:02 roborock.vacuum.s5e_1668_fel.zip
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.rw-r--r-- 28M john 9 Aug 19:00 roborock.vacuum.s5e_1668_fw.tar.gz
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```
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I also grabbed the [latest `valetudo-armv7-lowmem.upx` binary](https://github.com/Hypfer/Valetudo/releases/latest/download/valetudo-armv7-lowmem.upx) from the [Valetudo GitHub](https://github.com/Hypfer/Valetudo/).
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And I installed the `sunxi-tools` package needed for communicating with the robot over USB:
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```shell
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sudo apt update # [tl! .cmd:1]
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sudo apt install sunxi-tools
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```
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I used a micro-USB cable to connect the mainboard's debugging port to my Chromebook (running then [Linux development environment](https://www.chromium.org/chromium-os/developer-library/guides/containers/containers-and-vms/)). (I wasn't entirely sure that the Chromebook would work for this as it can be somewhat picky about [supporting USB devices](https://www.chromium.org/chromium-os/developer-library/guides/containers/containers-and-vms/#can-i-access-hardware-eg-usbbluetoothserial) so also had another Linux laptop standing by just in case.) And I then connected the robot's battery to the mainboard (but without powering on the robot).
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Next came the only truly tricky part of this whole process: shorting the `TPA17` test point on the bottom side of the mainboard to ground, while *also* pressing and holding the power button on the *top* side of the board.
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I used my fingernail to gently scrape the coating off the pad to make good contact, and settled on using a bent paperclip for the shunt. I was able to hook one end of the clip through one of the (grounded) screw holes and then only have to worry about precisely placing the other end on `TPA17`, which freed up my other hand for mashing the button.
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The prescription is to short `TPA17`, press-and-hold the power button for three seconds, and keep `TPA17` shorted to ground for five more seconds after that.
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I did that, the status LEDs on the robot came alive, and I went to my terminal to check the status with `lsusb` to see if the `Allwinner Technology sunxi SoC OTG connector in FEL/flashing mode` showed up.
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> For a moment, nothing happened.
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> Then, after a second or so, nothing continued to happen.
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>
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> - Douglas Adams
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"Okay," I thought to myself, "It must be ChromeOS getting in the way." So I tried my backup laptop (which, admittedly, started as a Chromebook but now runs NixOS). Interestingly, the same thing there - no Allwinner Chicken Dinner.
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After half an hour of repeating the same steps and hoping for different results, I had the bright idea to try a different micro-USB cable.
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Unfortunately, that didn't change things. So I kept repeating the same steps some more and hoping for different results. Eventually, I tried *another* micro-USB cable, and that seemed to do the trick!
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```shell
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lsusb # [tl! .cmd]
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Bus 001 Device 014: ID 1f3a:efe8 Allwinner Technology sunxi SoC OTG connector in FEL/flashing mode # [tl! .nocopy ~~]
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```
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{{% notice note "\"Universal\" Serial Bus" %}}
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I don't have many micro-USB cables left in my house at this point, and most of the ones I do still have arrived as charging cables for various cheap devices. As it turns out, those two other cables I tried first were charging-only cables without any wires to carry the USB data signals.
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I had to go digging through my cable drawer to find a quality braided cable (that I knew supported data transfer). If I had just started with a decent cable from the start I could have saved a lot of time and trouble.
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{{% /notice %}}
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