The Fediverse by design prevents this, while the internet of the old age had little if any guardrails against this specially since the platforms never really federated with another.
I see someone is too young to remember USENET.
The Fediverse by design prevents this, while the internet of the old age had little if any guardrails against this specially since the platforms never really federated with another.
I see someone is too young to remember USENET.
The Fediverse is a bit more like the old USENET days in some regards, but ultimately if it ever becomes more popular the same assholes that ruin other online experiences will also wind up here.
What made the Internet more exciting 30 years ago was that it was mostly comprised of the well educated and dedicated hobbyists, who had it in their best interest to generally keep things decent. We didn’t have the uber-lock-in of a handful of massive companies running everything.
It’s all Eternal September. There’s no going back at this point — any new medium that becomes popular will attract the same forces making the current Internet worse.
Depends on what you mean by “back in the day”. So far as I know you could be ~30, and “back in the day” for you is the 2005 era.
For some of us “back in the day” is more like the early 90’s (and even earlier than that if we want to include other online services, like BBS’s) — and the difference since Eternal September is pretty stark (in both good and bad ways).
There are a lot of manufacturer-agnostic smart home devices out there, and with just a tiny bit of research online it’s not difficult to avoid anything that is overly tied to a cloud service. Z-wave, ZigBee, Thread/Matter devices are all locally controlled and don’t require a specific companies app or environment — it’s only really the cheapest, bottom-of-the-barrel WiFi based devices that rely on cloud services that you have to be careful of. As with anything, you get what you pay for.
Even if the Internet were destroyed tomorrow, my smart door locks would continue to function — not only are they Z-wave based (so local control using a documented protocol which has Open Source drivers available), but they work even if not “connected”. I can even add new door codes via the touchscreen interface if I wanted to.
The garage door scenario can be a bit more tricky, as there aren’t a lot of good “open” options out there. However, AFAIK all of them continue to work as a traditional garage door opener if the online service becomes unavailable. I have a smart Liftmaster garage door opener (which came with the house when we bought it), and while it’s manufacturer has done some shenanigans in regards to their API to force everyone to use their app (which doesn’t integrate with anything), it still works as a traditional non-smart garage door opener. The button in the garage still works, as does the remote on the outside of the garage, the remotes it came with, and the Homelink integration in both of our vehicles.
With my IONIQ 5, the online features while nice are mostly just a bonus. The car still drives without them, the climate control still works without being online — most of what I lose are “nice-to-have” features like remote door lock/unlock, live weather forecasts, calendar integration, and remote climate control. But it isn’t as if the car stops being drivable if the online service goes down. And besides which, so long as CarPlay and Android Auto are supported, I can always rely on them instead for many of the same functions.
Some cars have much more integration than mine — and the loss of those services may be more annoying.
The people who follow those religions would disagree. The Copts even have their own Pope, so it’s pretty hard to consider them “Catholic” in any normal sense of the word.
Actually pretty much the only Christians until Martin Luther and the Reformation.
I think the Coptic Church (AD 41), Greek Orthodox Church (1st century AD), Syriac Church (514 AD) would like to have a word.
…until the CrowdStrike agent updated, and you wind up dead in the water again.
The whole point of CrowdStrike is to be able to detect and prevent security vulnerabilities, including zero-days. As such, they can release updates multiple times per day. Rebooting in a known-safe state is great, but unless you follow that up with disabling the agent from redownloading the sensor configuration update again, you’re just going to wing up in a BSOD loop.
A better architectural solution like would have been to have Windows drivers run in Ring 1, giving the kernel the ability to isolate those that are misbehaving. But that risks a small decrease in performance, and Microsoft didn’t want that, so we’re stuck with a Ring 0/Ring 3 only architecture in Windows that can cause issues like this.
That company had the power to destroy our businesses, cripple travel and medicine and our courts, and delay daily work that could include some timely and critical tasks.
Unless you have the ability and capacity to develop your own ISA/CPU architecture, firmware, OS, and every tool you use from the ground up, you will always be, at some point, “relying on others stuff” which can break on you at a moments notice.
That could be Intel, or Microsoft, or OpenSSH, or CrowdStrike^0. Very, very, very few organizations can exist in the modern computing world without relying on others code/hardware (with the main two that could that come to mind outside smaller embedded systems being IBM and Apple).
I do wish that consumers had held Microsoft more to account over the last few decades to properly use the Intel Protection Rings (if the CrowdStrike driver were able to run in Ring 1, then it’s possible the OS could have isolated it and prevented a BSOD, but instead it runs in Ring 0 with the kernel and has access to damage anything and everything) — but that horse appears to be long out of the gate (enough so that X86S proposes only having Ring 0 and Ring 3 for future processors).
But back to my basic thesis: saying “it’s your fault for relying on other peoples code” is unhelpful and overly reductive, as in the modern day it’s virtually impossible to do so. Even fully auditing your stacks is prohibitive. There is a good argument to be made about not living in a compute monoculture^1; and lots of good arguments against ever using Windows^2 (especially in the cloud) — but those aren’t the arguments you’re making. Saying “this is your fault for relying on other peoples stuff” is unhelpful — and I somehow doubt you designed your own ISA, CPU architecture, firmware, OS, network stack, and application code to post your comment.
——-
^0 — Indeed, all four of these organizations/projects have let us down like this; Intel with Spectre/Meltdown, Microsoft with the 28 day 32-bit Windows reboot bug, and OpenSSH just announced regreSSHion.
^1 — My organization was hit by the Falcon Sensor outage — our app tier layers running on Linux and developer machines running on macOS were unaffected, but our DBMS is still a legacy MS SQL box, so the outage hammered our stack pretty badly. We’ve fortunately been well funded to remove our dependency on MS SQL (and Windows in general), but that’s a multi-year effort that won’t pay off for some time yet.
^2 — my Windows hate is well documented elsewhere.
I certainly wouldn’t run to HR right away — but unfortunately, it’s true sometimes that people just aren’t a good fit for whatever reason. Deadweight that isn’t able to accomplish the tasks that need to be done doesn’t do you any favours — if you’re doing your job and their jobs because they just can’t handle the tasks that’s hardly fair to you, and isn’t doing the organization any good — eventually you’ll burn out, nobody will pickup the slack, and everyone will suffer for it.
My first instinct in your situation however would be that everyone has got used to the status quo, including the staff you have to constantly mentor. Hopefully if you can coach them into doing the work for themselves and keeping them accountable to tasks and completion dates will help change the dynamic.
I’m a tech manager with a 100% remote team of seven employees. We’re a very high performing team overall, and I give minimal hand-holding while still fostering a collaborative working environment.
First off, you need to make outcomes clear. Assign tasks, and expect them to get done in a reasonable timeframe. But beyond that, there should be no reason to micro-manage actual working hours. If some developer needs some time during the day to run an errand and wants to catch up in the evening, fine by me. I don’t need them to be glued to their desk 9-5/10-6 or for some set part of the day — so long as the tasks are getting done in reasonable time, I let me employees structure their working hours as they see fit.
Three times a week we have regular whole-team checkins (MWF), where everyone can give a status update on their tasks. This helps keep up accountability.
Once a month I reserve an hour for each employee to just have a general sync-up. I allow the employee to guide how this time is used — whether they want to talk about issues with outstanding tasks, problems they’re encountering, their personal lives, or just “shoot the shit”. I generally keep these meetings light and employee-directed, and it gives me a chance to stay connected with them on both a social level and understand what challenges they might be facing.
And that’s it. I’ve actually gone as far as having certain employees who were being threatened with back-to-office mandates to have them converted to “remote employee” in the HR database so they’d have to lay off threatening them — only 2 of my 7 employees are even in the same general area of the globe (my employees are spread in 3 different countries at the moment), and I don’t live somewhere with an office, so having some employees forced to report to an office doesn’t help me in the slightest (I can’t be in 6 places at once — I live far enough away I can’t be in any of those places on a regular basis!).
Your employees may have got used to you micro-managing them. Changing this won’t happen overnight. Change from a micro-manager into a coach, and set them free. And if they fail…then it’s time to talk to HR and to see about making some changes. HTH!
I can see Republicans going after Obama for things…
Please list these “things” and the laws they are in violation of.
If the Soviets hadn’t cut corners and Chernobyl hadn’t happened in this first place, this is likely where we would already be.
Easy. Have nuclear power plants operate as government run and backed corporations (what we’d call a “Crown Corporation” here in Canada).
That way you can mandate safety and uptime as metrics over profit. It may be less efficient from an economic standpoint (overall cost might be higher), but you also don’t wind up with the nuclear version of Love Canal.
I started back in the Wild West BBS days on the 80s; graduated to USENET in the 90s, website forums in the Web 1.0 days, /., Reddit, and now Lemmy. Yeah, I’ve been around. Been “Yaztromo” all that time too.
I don’t mind that “Eternal September” hasn’t infected this space yet — that’s a feature, not a bug!
All coal from the Earth has a radioactive component to it. Burning coal releases more radiation into the atmosphere than a properly functioning nuclear reactor ever does. Fly ash from coal fired power plants contains 100 times more radiation than nuclear power plants emit.
The idiots on here apparently also think that burning coal somehow doesn’t create waste that will last for longer than humanity has existed.
I’m not sure what’s keeping Microsoft and ibm from Open Sourcing all the rest of the DOS versions as well — the 3.x series was very influential, 5 added disk compression, and 6 was the most modern of them all. I can’t remember if Stac’s lawsuit against Microsoft would require them to take out the disk compression parts (although AFAIK the relevant patents are probably long expired now), but even if that’s the case having these available as OSS would also be useful — even if only for a historical context.
To put things into context, IBM didn’t get ripped off in any way (at least not from DOS - the whole IBM/Microsoft OS/2 debacle is a different story). The earliest PCs (IBM PC, IBM PC XT, IBM PC Jr., and associated clones) didn’t really have the hardware capabilities needed to permit a more advanced operating system. There was no flat memory model, no protection rings, and no Translation Look-aside Buffer (TLB). The low maximum unpaged memory addressing limit (1MB) made it difficult to run more than one process at a time, and really limits how much OS you can have active on the machine (modern Windows by way of example reserves 1GB of virtual RAM per process just for kernel memory mapping).
These things did exist on mainframe and mini computers of the day — so the ideas and techniques weren’t unknown — but the cheaper IBM PCs had so many limitations that those techniques were mostly detrimental (there were some pre-emptive OSs for 8086/8088 based PCs, but they had a lot of limitations, particularly around memory management and protection), if not outright impossible. Hence the popularity of DOS in its day — it was simple, cheap, didn’t require a lot of resources, and mostly stayed out of the way of application development. It worked reasonably well given the limitations of the platforms it ran on, and the expectations of users.
So IBM did just fine from that deal — it was when they went in with Microsoft to replace DOS with a new OS that did feature pre-emptive multitasking, memory protection, and other modern techniques that they got royally screwed over by Microsoft (vis: the history of OS/2 development).
As someone who has done some OS dev, it’s not likely to be of much help. DOS didn’t have much of any of the defining features of most modern OS’s — it barely had a kernel, there was no multitasking, no memory management, no memory protection, no networking, and everything ran at the same privilege level. What little bit of an API was there was purely through a handful of software interrupts — otherwise, it was up to your code to communicate with nearly all the hardware directly (or to communicate with whatever bespoke device driver your hardware required).
This is great for anyone that wants to provide old-school DOS compatibility, and could be useful in the far future to aid in “digital archaeology” (i.e.: being able to run old 80’s and early 90’s software for research and archival purposes on “real DOS”) — but that’s about it. DOS wasn’t even all that modern for its time — we have much better tools to use and learn from for designing OS’s today.
As a sort of historical perspective this is useful, but not likely for anything else.
AWS already had to effectively do this. AWS only exists in two regions in China because they licensed much of the AWS software to be run by a pair of Chinese-government affiliated ISPs inside China (that is, Amazon doesn’t run AWS in either of its China zones — it’s run by a pair of Chinese companies who license AWS’s software).
This is why the China AWS regions are often quite far behind in terms of functionality from every other region (they either haven’t licensed all the functionality, they don’t keep up-to-date at the same cadence as Amazon, or Amazon is holding certain functions back), and why you can’t really access them from the standard AWS console.
So in effect, Amazon did have to give their software to Chinese-government affiliated companies in order to continue operating in China.
Sure, but electrolysis is only around 30% efficient — so you need 3 units of energy to produce the hydrogen to drive a vehicle x distance, whereas a BEV would only need one unit to travel the same distance.
That is, you can use the electricity generated from that nuclear power plant to drive three times the distance with a fleet of BEVs than you’ll get out of a fleet of hydrogen powered vehicles.