ch00f

joined 1 year ago
[–] ch00f@lemmy.world 8 points 18 hours ago* (last edited 13 hours ago) (1 children)

At my last job, every time they added or removed someone’s key card access, the system would reboot and everyone would be locked out for like two minutes.

We also had two floors that were connected by a fire stairwell, so you needed a card to re-enter the next floor.

At least twice my card stopped working in the middle of the word day while I was standing in the stairwell and I assumed that they just fired me and assumed I’d see my own way out.

Survived three layoffs at that company.

[–] ch00f@lemmy.world 1 points 1 day ago

I wonder what the azeotrope for magically created alcohol is.

[–] ch00f@lemmy.world 1 points 3 days ago (1 children)

Yep. Not what I intended.

[–] ch00f@lemmy.world 2 points 3 days ago

I mean every American is expected to know the layout of a specific city.

 

Like why do I feel like I’m supposed to be able to name the seven boroughs? I can’t tell you anything about L.A., Chicago, Boston, etc.

Edit: to clarify: I mean that everyone in America are expected to know NYC. Not just New Yorkers. Obviously everyone should know the layout of where they live.

[–] ch00f@lemmy.world 3 points 3 days ago (6 children)

digitalblasphemy.com ftw

[–] ch00f@lemmy.world 5 points 4 days ago

I’ve been using a Dell keyboard I got at goodwill for $4. It’s great.

[–] ch00f@lemmy.world 4 points 5 days ago

My first day in Seattle, I stayed here. I got plastered in the hotel bar and when I woke up, my car that I just towed 3,000 miles was broken into.

Great intro to the city lol. Lived here for the past 12 years.

[–] ch00f@lemmy.world 25 points 5 days ago (2 children)

Android OS runs a modified version of the Linux kernel.

[–] ch00f@lemmy.world 3 points 2 weeks ago

We had one of these. It was terrible. Spring force was super weak and slow and there was no lever to manually lift the toast if it got stuck.

[–] ch00f@lemmy.world 5 points 2 weeks ago

I heard that part of the motivation behind games like Pokémon Go is that they can collect data on previously unrecorded pedestrian routes between major landmarks or points of interest.

So Google’s directions may be based on crowd sourced routes that have never been vetted as safe/legal for pedestrians and cyclists.

 

Looking to ROM dump just a handful of games, so I’m trying not to spend hundreds on a Sanni or Retrode. I saw this on AliExpress for $15.

I’ve personally had good luck with Alibaba and Aliexpress, but I recognize that this could just straight not work. There’s no documentation, but it claims the game data will show up like files on a USB flash drive.

Anybody know where this design came from?

 

Edit: turns out these are all bootleg and I’m a moron. Only two Zelda games were officially released for GBA.

Just kicked off a return.

 

I’m now at a point where I can detect 152 nodes in my city. 25 are listed as “online.”

Yet the only contact I’ve gotten is the occasional “hello world” and once or twice a response to my own “hello world.”

It’s possible that nobody has anything to say, but I also suspect the network isn’t robust enough to maintain contact and facilitate a real conversation between random strangers.

Has anybody else here managed to actual chat with someone they don’t know?

 

Rak wireless module with battery/solar.

My question is…now what? I’m in Seattle, I can pick up 121 nodes, but there no traffic.

Is everybody using private channels? Or is nobody talking? I don’t see many messages and got one reply to a general CQ I sent out, but no response to the follow up.

I guess I was kind of hoping for what I get over ham radio, occasional chats, evening nets, etc.

Am I running into a technical limitation? Or is that the gist of Meshtastic?

As a follow-up, can I easily see if my router is handling other people’s traffic? I’d like to know if I’m helping.

 

I originally told the story over on the other site, but I thought I’d share it here. With a bonus!

I was working on a hardware accessory for the OG iPad. The accessory connected to the iPad over USB and provided MIDI in/out and audio in/out appropriate for a musician trying to lay down some tracks in Garage Band.

It was a winner of a product because at its core, it was based on a USB product we had already been making for PCs for almost a decade. All we needed was a little microcontroller to put the iPad into USB host mode (this was in the 30-pin connector days), and then allow it to connect to what was basically a finished product.

This product was so old in fact that nobody knew how to compile the source code. When it came time to get it working, someone had to edit the binaries to change the USB descriptors to reflect the new product name and that it drew <10mA from the iPad's USB port (the original device was port-powered, but the iPad would get angry if you requested more than 10mA even if you were self-powered). This was especially silly because the original product had a 4-character name, but the new product had a 7-character name. We couldn't make room for the extra bytes, so we had to truncate the name to fit it into the binary without breaking anything.

Anyway, product ships and we notice a problem. Every once in a while, a MIDI message is missed. For those of you not familiar, MIDI is used to transmit musical notes that can be later turned into audio by whatever processor/voice you want. A typical message contains the note (A, B, F-sharp, etc), a velocity (how hard you hit the key), and whether it's a key on or key off. So pressing and releasing a piano key generate two separate messages.

Missing the occasional note message wouldn't typically be a big deal except for instrument voices with infinite sustain like a pipe organ. If you had the pipe organ voice selected when using our device, it's possible that it would receive a key on, but not a key off. This would result in the iPad assuming that you were holding the key down indefinitely.

There isn't an official spec for what to do if you receive another key-on of the same note without a key-off in between, but Apple handled this in the worst way possible. The iPad would only consider the key released if the number of key-ons and key-offs matched. So the only way to release this pipe organ key was to hope for it to skip a subsequent key-on message for the same key and then finally receive the key-off. The odds of this happening are approximately 0%, so most users had to resort to force quitting the app.

Rumors flooded the customer message boards about what could cause this behavior, maybe it was the new iOS update? Maybe you had to close all your other apps? There was a ton of hairbrained theories floating around, but nobody had any definitive explanation.

Well I was new to the company and fresh out of college, so I was tasked with figuring this one out.

First step was finding a way to generate the bug. I wrote a python script that would hammer scales into our product and just listened for a key to get stuck. I can still recall the cacophony of what amounted to an elephant on cocaine slamming on a keyboard for hours on end.

Eventually, I could reproduce the bug about every 10 minutes. One thing I noticed is that it only happened if multiple keys were pressed simultaneously. Pressing one key at a time would never produce the issue.

Using a fancy cable that is only available to Apple hardware developers, I was able to interrogate the USB traffic going between our product and the iPad. After a loooot of hunting (the USB debugger could only sample a small portion, so I had to hit the trigger right when I heard the stuck note), I was able to show that the offending note-off event was never making it to the iPad. So Apple was not to blame; our firmware was randomly not passing MIDI messages along.

Next step was getting the source to compile. I don't remember a lot of the details, but it depended on "hex3bin" which I assume was some neckbeard's version of hex2bin that was "better" for some reasons. I also ended up needing to find a Perl script that was buried deep in some university website. I assume that these tools were widely available when the firmware was written 7 years prior, but they took some digging. I still don't know anything about Perl, but I got it to run.

With firmware compiling, I was able to insert instructions to blink certain LEDs (the device had a few debug LEDs inside that weren't visible to the user) at certain points in the firmware. There was no live debugger available for the simple 8-bit processor on this thing, so that's all I had.

What it came down to was a timing issue. The processor needed to handle audio traffic as well as MIDI traffic. It would pause whatever it was doing while handling the audio packets. The MIDI traffic was buffered, so if a key-on or key-off came in while the audio was being handled, it would be addressed immediately after the audio was done.

But it was only single buffered. So if a second MIDI message came in while audio was being handled, the second note would overwrite the first, and that first note would be forever lost. There is a limit to how fast MIDI notes can come in over USB, and it was just barely faster than it took to process the audio. So if the first note came in just after the processor cut to handling audio, the next note could potentially come in just before the processor cut back.

Now for the solution. Knowing very little about USB audio processing, but having cut my teeth in college on 8-bit 8051 processors, I knew what kind of functions tended to be slow. I did a Ctrl+F for "%" and found a 16-bit modulo right in the audio processing code.

This 16-bit modulo was just a final check that the correct number of bytes or bits were being sent (expecting remainder zero), so the denominator was going to be the same every time. The way it was written, the compiler assumed that the denominator could be different every time, so in the background it included an entire function for handling 16-bit modulos on an 8-bit processor.

I googled "optimize modulo," and quickly learned that given a fixed denominator, any 16-bit modulo can be rewritten as three 8-bit modulos.

I tried implementing this single-line change, and the audio processor quickly dropped from 90us per packet to like 20us per packet. This 100% fixed the bug.

Unfortunately, there was no way to field-upgrade the firmware, so that was still a headache for customer service.

As to why this bug never showed up in the preceding 7 years that the USB version of the product was being sold, it was likely because most users only used the device as an audio recorder or MIDI recorder. With only MIDI enabled, no audio is processed, and the bug wouldn't happen. The iPad however enabled every feature all the time. So the bug was always there. It's just that nobody noticed it. Edit: also, many MIDI apps don't do what Apple does and require matching key on/key off events. So if a key gets stuck, pressing it again will unstick it.

So three months of listening to Satan banging his fists on a pipe organ lead to a single line change to fix a seven year old bug.

TL;DR: 16-bit modulo on an 8-bit processor is slow and caused packets to get dropped.

The bonus is at 4:40 in this video https://youtu.be/DBfojDxpZLY?si=oCUlFY0YrruiUeQq

 
 

Let’s call it hybrid soldered memory

 

Per my previous post, I’m working on updating my server that’s running a J3455 Celeron with 16gigs of ram.

Goals:

  • Support at least six hard drives (currently have six drives in software RAID 6). Can move 7th main drive to nvme.
  • Be faster at transcoding video. This is primarily so I can use PhotoPrism for video clips. Real-time transcoding 4K 80mbps video down to something streamabke would be nice. Despite getting QuickSync to work on the Celeron, I can’t pull more than 20fps unless I drop the output to like 640x480. Current build has no PCIe x16 slot.
  • Energy efficiency. Trying to avoid a dedicated video card.
  • Support more RAM. Currently maxed at 16gb.
  • Price: around $500
  • Server-grade hardware would be nice, but I want newer versions of quicksync and can’t afford newer server hardware. Motherboard choice is selected primarily because of chipset, number of SATA ports, and I found one open box.

https://pcpartpicker.com/list/JX2gHG

Hoping to move my main drive to the NVME and keep the other six drives as-is without needing a reinstall.

Thoughts?

 

I've been running a headless Ubuntu server for about 10 years or so. At first, it was just a file/print server, so I bought a super low power motherboard/processor to cut down on the energy bill. It's a passively cooled Intel Celeron J3455 "maxed out" with 16BG of RAM.

Since then it's ballooned into a Plex/Shinobi/Photoprism/Samba/Frigate/MQTT/Matrix/Piwigo monster. It has six drives in RAID6 and a 7th for system storage (three of the drives are through a PCI card). I'm planning on moving my server closet, and I'll be upgrading the case into a rack-mount style case. While I'm at it, I figured I could upgrade the hardware as well. I was curious what I should look for in hardware.

I've built a number of gaming PCs in the past, but I've never looked at server hardware. What features should I look for? Also, is there anything specific (besides a general purpose video card) that I can buy to speed up video encoding? It'd be nice to be able to real-time transcode video with Plex.

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