The lid angle sensor is also serialized to the motherboard: you cannot replace it, or the motherboard, without performing calibration, which can be performed by an apple authorized service provider, or alternatively, in Europe (and elsewhere where Apple offers parts for self-service repair), you can purchase the sensor from Apple, connect the machine to the internet after replacing it, to then perform the calibration, only if the sensor was purchased from Apple.
So the hardware is capable of performing the calibration, Apple just does not graciously grant you the right to install a recycled or third party sensor in your machine.
They call it "calibration" when it's presumably nothing more than writing a serial number to an EEPROM somewhere. See also the related story of sabotaging iPad screens to work but subtly degrade when the serials don't match, and cameras that only semi-work when swapped (with genuine original Apple parts). This type of pathological lying that Apple loves to do is why I'll never buy or recommend to others any of their products.
Interesting but that proves the point even more --- it's hardly "calibration" when it effectively does nothing more than write constants to the EEPROM. They certainly have enough processing power in the machine to do that automatically too without needing anything more, but instead they make everyone go through a whole song-and-dance to do this trivial process; which doesn't even require Apple's involvement.
"Set the angle to 0 (closed) and press Enter. Open 10 degrees and press Enter. Repeat for every 10 degrees from 0 to 170" would be an example of actual calibration.
That's not something that needs to be measured externally.
Also, one wonders just how horrible their production tolerances must be if something like this even needs that sort of calibration in the first place. No other company does this. Nonetheless, even if one accepts this bizarre excuse at face value, it doesn't take a genius to realise that the firmware can "self-calibrate" trivially: If the EEPROM in the sensor is uninitialised, then it just needs to record the max/min value the first time it's closed, and save that as the "lid closed" point.
The only plausible explanation for doing all this extra work is that this isn't merely incompetence; it's intentional malice. Given how much Apple spends on lobbying and other hostile activities, this is not surprising.
It wouldn’t matter… just tell the user to close and open the lid before pressing enter again, and get the maximum (or minimum) value as the lid being close all the way.
Exactly my thought, but this might not be precise enough in low light conditions? So maybe best used as a fail safe (if camera is lit don't calibrate even if the user pressed confirmed)
It does actually perform a security function. The lid angle sensor is used to know when the device is open or closed, and when closed, it physically disconnects the microphone. If you were to be able to recalibrate it at any time, you would leave your device vulnerable to having the microphone enabled when the lid is closed. You can argue whether that justifies the practice, but it's not as simple as just burning the EEPROM serial number in that tells it to turn the display on or off. It defends the user against an attack vector.
From that perspective making it one-time programmable is not unreasonable.
Though it could be simpler if it was something like a magnet on the lid that activates a magnetic switch on the bottom part (and it would be harder to have a false negative result). But Apple is going to Apple
Yes, it could be done with a Hall effect sensor or something like they used to. The cool thing about this approach is they actually use a different angle to turn the screen off as you close the lid than they do for turning it on when you open the lid, to create a better experience. Since it is a security feature, then the "open" vs "closed" state should use the same source of truth. So it's a trade-off of complexity and experience.
Apple even makes a suitable one themselves... but the point is that a calibration procedure involves adjustment and measurement, and not merely reading some data from the sensor and writing it back. If Apple weren't deliberately trying to be hostile and sneaky, they would not have bothered with this roundabout, obfuscated process which no doubt increases their production cost too.
Okay so here's the argument I've heard: if arbitrary replacements of the lid sensor were possible, it would be feasible to create a tampered sensor that failed to detect the MacBook closing, thus preventing it from entering sleep mode.
This could then be combined with some software on the machine to turn a MacBook into a difficult to detect recording device, bypassing protections such as the microphone and camera privacy alerts, since the MacBook would be closed but not sleeping.
Additionally, since the auto-locking is also tied to triggering sleep mode, it would be possible to gain access to a powered off device, switch the sensors, wait for the user to attempt to sleep mode the device, and then steal it back, completely unlocked with full access to the drive.
Are these absolutely ridiculous, James Bond-tier threat assessments? Yes, absolutely. But they're both totally feasible (and not too far off from exploits I've heard about in real life), and both are completely negated by simply serializing the lid sensor.
Should Apple include an option, buried in recoveryOS behind authentication and disk unlock steps like the option to allow downgrades and allow kernel extensions, that enables arbitrary and "unauthorized" hardware replacements like this? Yes, they really should. If implemented correctly, it would not harm the security profile of the system while still preventing the aforementioned exploits.
There are good security reasons for a lot of what Apple does. They just tend to push a little too far beyond mitigating those security issues into doing things which start to qualify as vendor lock-in.
I really wish people would start to recognize where the line should be drawn, rather than organizing into "security of the walled garden" versus "freedom of choice" groups whenever these things get brought up. You can have both! The dichotomy itself is a fiction perpetuated to defend the status quo.
The line should be drawn by the owner of the device.
As the user and owner of the product, I should be the sole decider about my own security posture, not some company who doesn’t know my use case or needs.
It’s crazy how we’ve managed to normalize the manufacturer making these kinds of blanket decisions on our behalf.
Yes it’s wild. Imagine if we decided that people can’t be relied on to install good locks for their doors, so we gave the government responsibility for locking and unlocking your door every time you wanted to leave your house.
A lid sensor is just so peripheral. Where do the vendor lock-ins end?
A more accurate analogy, is like a lock installed on your door by a locksmith that uses proprietary parts available only through locksmiths. Which is exactly how a lot of locks work.
Proprietary technology exists in a lot of places, Apple didn't invent this.
Apple is worse than a government. They have more money and reach than many governments and unlike many government officials, the public doesn't have the power to vote the heads of apple out of office or vote for who they want as a replacement.
Apple didn't invent proprietary technology, but they leverage the shit out of it in consumer hostile ways just to take even more money from people.
Governments have a monopoly on the use of force, and they exercise it to compel their citizens to do things whether or not they want to. For example, I have to pay taxes, and if I don't, they will use force against me.
Your relationship with Apple is very different. If you don't like Apple, you can just simply not buy or use their products. You have a choice and they have no way of compelling you otherwise.
The inability to use force doesn't make corporate power any less powerful--it only makes it a different kind of power. Yes, BigTech cannot arrest me or throw me in jail, but that doesn't mean that they don't wield other kinds of enormous power over my day-to-day life.
And unlike my (technically democratically elected government), corporations do not have to answer to the people they exert their power over.
I'm not trying to say that big tech doesn't have any sort of power at all that significant, of course they do. They certainly have a lot of control over information and how it shared. But I think that is unequivocally a lesser power than being able to imprison someone or put them to death. The fact that some small number of government officials are elected might be a rationale for that power, but it doesn't decrease it in any way.
Yea, that's a much better analogy. We don't want the lock vendor to decide how and when we lock our doors and how we fix them when they break. We don't want our stove vendor to decide what food we're allowed to cook, how many burners can be running at once, and what parts we use to repair it. We don't want our car manufacturer to decide where we can drive our car and who repairs it.
Yet, somehow, when it comes to technology products, we accept the manufacturer butting in to tell us how not to use them, and how not to repair them.
My stove, my car, and my locks are all opinionated in their design and use proprietary parts. None of them were designed to my personal requirements. Many of the products that I buy do in fact, not work exactly how I want them to, nor do they facilitate my desire to change them.
I can't name a single product in my house that uses any sort of open hardware design, except for the things, I've 3D printed or built myself.
A better analogue then would be that the developer who built your house insists on a specific type of lock.
There’s a whole repairability movement going on to maintain access to third party replacement parts for cars and appliances. This is a recent design choice that is being enforced by manufacturers. Historically, people have been able to repair everything they owned. Locking everything down is bad for consumers.
Developers normally do pick the parts that come on a house when they build it.
I understand arguments for repairability, and in most cases, I agree with them. But these things aren't boolean situations where things are either repairable or they are not. There's a lot of nuance in how things are designed and how repairable they are as an inherent part of that design. Ultimately, I agree that artificial lock-in for no reason other than that lock-in is a bad thing for consumers. But not everything is really that simple.
> Historically, people have been able to repair everything they owned.
It all depends on how you define "able". Most people lack technical ability to repair most things for thousands of years. And most things that you own today you are permitted to repair to the best of your ability.
I dislike Apple's lock-in tactics, but I dislike gross fear-mongering exaggerations even more.
How'd we get to tyrannical government oversight from shitty corporate control? Sorry, I think I slipped on that slippery slope.
The better analogy would be "door lock vendor requires you to buy their door frame to make their door lock work with the security guarantees you chose to buy into."
Government should stay out of our private lives, but this kind of jumpy fear-mongering is what makes people lose focus, and when people are run by fear that's when the real psychopaths start taking advantage. Your fear mongering is creating the very government tyranny you're mongering about.
> As the user and owner of the product, I should be the sole decider about my own security posture, not some company who doesn’t know my use case or needs.
It's not so cut and dry though. The "user" and the "owner" of a product are not always the same person, but hardware security impacts the "user" more than the "owner".
How does Apple know the owner of the product has authorized the HW change?
There’s a secondary argument you could make here whereby because the replacements must be valid Apple parts that have uniform behavior and tolerances, the strength of the secondary market is stronger and Apple products have a stronger resale value as a result, because you’re not going to encounter a MacBook with an arbitrary part replaced that you as the second-hand buyer know nothing about (this is why the secondary market for cars doesn’t work without the ability to lookup the car history by VIN).
What happens when you indirectly cause the machine to fail by installing some shout 3rd party part? Are you still going to claim warranty? Walk into an Apple Store to ask for help?
Practically speaking, however, they are liable for the time to service those customers and diagnose product issues to determine that the customer was at fault. And, that extends to any future buyers of used devices. And, any resulting displeasure from customers, even though it wasn't Apple's fault.
These sorts of things are exactly the types of problems that exist in the used car market, for exactly the same reasons.
That car comparison doesn't work here. You can't be sure about the true history of a car, only what was reported.
When I replace a wheel bearing assembly in my driveway, you still can't see that by looking up my VIN. Nobody knows except myself and the person I bought the parts from.
Was it a dealer part? An OEM part? A poor quality replacement? Can't tell without looking.
This might actually support Apple's side of the argument, although I do not. I don't think we need some Carfax equivalent for MacBooks.
This might actually support Apple's side of the argument, although I do not. I don't think we need some Carfax equivalent for MacBooks.
In some ways, Apple's scheme is better than Carfax. In other ways, it's worse.
It's worse because you can't get access to the repair history of a device.
It's better because you can actually have a reasonable degree of confidence that no "driveway repairs" have taken place since Apple's scheme is not known to be broken.
I think we should stop using "driveway repairs" as a derogative term. There's nothing wrong with a car owner repairing their own car. Years ago, that was a very usual, normal thing to do. I replaced my own wheel bearings in my garage, and have been driving on them for 5 years. It's not that difficult, and doing it yourself doesn't make your car unsafe or defective.
Kind of scary how "repairing your own things yourself" has fallen so far out of fashion. We should be applauding and encouraging people to build these kind of skills, not insulting them.
I would have thought most people here are doing much more complicated work all day.
All four bearings are part of an assembly that bolts in. 8 or 12 bolts depending on position. I'm lucky that I don't even need a press.
The wheel comes off (5 bolts), the brakes come off (2 bolts), the axle/hub bolt comes out (1 bolt), and then on the front there are four bolts holding the assembly to the car. On the rear, nothing holds it on except that hub bolt.
Use a torque wrench to get them to spec. The kits came with new bolts. The axle bolts go on tight tight.
This is my biggest complaint with the strict "my device, my rules" people.
I want Apple to lock down my device to customization, repairs, etc..
I know I am never going to install an app through means other than the app store, even if I could. I know I'm never going to repair my device through anyone other than Apple, even if I could. I want to know that my device will be a $1,000 paperweight to anyone who steals it.
I want to pay Apple to ensure there are no "driveway repairs".
A number of years ago I accidentally ended up with a second hand iPhone with a shitty "fake" screen repair. I had no way of knowing it wasn't an Apple screen. But it fucked me over as soon as it started failing a couple months after I bought it.
I get tired of the people demanding that a company, with willing, paying customers, isn't allowed to protect their customers because they want something the company doesn't offer. Fuck right off with that shit and buy from a company that does offer that.
I had a similar experience myself paying for screen repair in SF and getting back a phone with a butchered display. Why wouldn’t you get mad for spending money and not having your expectations met?
If you need consumer protection laws then clearly reputation isn’t worth much. The issue with reputation is that society has grown so large and impersonal that we’re constantly facing interactions with unknown people.
I'm sorry for my candor, but your argument is so silly, it rubs me the wrong way.
Laws are how society operates.
If you need traffic rules (those are defined by laws fyi) then clearly individual's ability to drive isn't worth much. Let's abolish car ownership, make Apple operate all ground transportation and prohibit anyone else from deciding where Apple-operated cars go, what are operational hours and where the stops are.
> Let's abolish car ownership, make [car manufacturers] operate all ground transportation and prohibit anyone else from deciding where [manufacturer]-operated cars go, what are operational hours and where the stops are.
Shhhhhh! Don’t give them any more bad ideas or they might actually do it.
She is however the target of pretty much every financial scam on the planet, many of which rely on convincing folks to hand over the keys to their (digital) castle...
I'm not aware of any that this particular sensor would mitigate. I think the idea that security is only for people targeted by nation-states is not a realistic view of the modern world (and, moreover, if we decide that normal people don't need enhanced security measures, it becomes trivial to identify dissidents by the fact that they implement security measures).
My dude, an Indian is going to call your Apple-using grandmother and tell her that he works for "the Microsoft" and he needs her to give him all her banking details, or go to a bitcoin ATM, or buy a stack of $500 gift cards, and she's going to do it.
The sensor in her macbook lid does not matter! Get real.
You're wack. Do you think a locked down laptop lid sensor will stop them from spiking your tea with polonium, or shooting you with a ricin BB, or breaking into your home when you're asleep and jabbing a needle into your neck while holding a pillow over your face, or kidnapping you and breaking your bones with a sledge hammer until they've gotten their rocks off?
This laptop lid threat is fantasy. Get fucking real.
Another answer, mine, is that one grandmother flew bombers, jets, spitfires, etc. in WWII and ran a post war international logistics company after that. The other did "stuff" with math.
ie. Both capable of understanding a security posture.
How about your grannies?
You might want to ask well formed questions in future, on a site such as HN the set of all grandmothers is hardly homogeneous.
It's not that crazy when people seem to cheer for a nanny state at every turn. Specially if said nanny state bombards them with propaganda about all the dangers they'll face if they just don't "comply".
1984 references may have seen farfetched but after the suppression of rights using covid as an excuse people have little to no recourse to claim control back. Apple was always famous for their walled garden and tight control, but we have Google becoming like apple (can't install things in your device unless you go to them with your private details), ID to track your movements because "protect the children" (effectively blocking news even), chat control (very similar to installing a camera in your home and recording all your conversations).
Corps and governments are relying on each other to strengthen their control and it's not a surprise.
Keeping a victim device unlocked when the lock state is responsible for encryption key state is a totally legitimate risk.
With that being said, I don’t think Apple see this specific part as a security critical component, because the calibration is not cryptographic and just sets some end point data. Apple are usually pretty good about using cryptography where they see real security boundaries.
Don't invent reasons for Apple to continue to have a stranglehold over their monopoly of critical computing infrastructure.
Companies as big as Apple and Google that provide such immensely important platforms and devices should have their hands tied by every major government's regulatory bodies to keep the hardware open for innovation without taxation and control.
We've gone from open computing to serfdom in the last 20 years, and it's only getting worse as these companies pile on trillions after trillions of nation state equivalent market cap.
The government regulators also have an interest in knowing the laptops they buy for eg the NSA have authenticated parts to avoid supply chain attacks.
If you're selling cell phones you already spend plenty of time satisfying regulators and vendors from all over the world. The cell phone companies aren't the ones with power here. (In general tech people have no political power because none of them have any social skills.)
Supply chain attacks don't generally target the second hand market. Much more effective to upstream your attack to the vendor Apple buys parts from in China, and compromise every MacBook in one fell swoop
That's too discoverable to work. Supply chain attacks are by state actors who can interrupt specifically your order on its way to you and silently replace parts in it.
It doesn't need to be encrypted if it's one-time programmable. The calibration data is likely written into efuses which are physically burned and cannot be reset.
For the mic cut-off? My understanding is that it outputs an electrical signal that's routed to the audio codec that literally prevents the audio from getting to system memory in the same way a physical switch would. It autonomously, at an electrical level, disconnects the mic without OS or software intervention. As it cannot be programmed again, you would have to crack open the laptop and modify the PCB to override it.
Oh, I understand now - you're right, OTP sensor data does protect against a real threat model I hadn't considered before:
* A remote attacker gains whatever privilege lets them get to the sensor SPI.
* Without OTP calibration, the attacker could reprogram the sensor silently to report a different endstop, keeping the machine awake and the hard-cuts active.
* With OTP calibration, this is closed.
So perhaps it is more security-related than I initially thought.
I was more considering the counterfeit part / supply chain / evil maid scenario, where the fact that Apple's sensors are OTP is meaningless (since a replacement sensor doesn't need to be, plus, you could just put a microcontroller pretending to be a sensor in there since there's no actual protection).
Thanks, you made me think again and figure it out!
A properly gated, user-authorized override in recoveryOS or similar would give advanced users and third-party repair shops a legitimate path without blowing up the security model
If repair shops can buy the $130 calibration machine, presumably the super spy in this story (who for some reason couldn't steal the data while they were replacing the lid sensor, nor can they steal the data when the laptop's in use, but somehow can steal the data when it's idle with the lid down) can also get a calibration machine, and then deliberately set the zero point incorrectly.
“Sure, you can borrow my laptop. It’s fine. Take it home. I promise not to spy on you while the lid is closed. I promise not to record aaaaaany audio or anything! And I definitely won’t hear any conversation that contains information that I’ll use to stalk you later!”
There are a million ways that some nefarious person could spy on another, but at least this isn’t one of them.
And I am a very suspicious person, thanks to some eye opening experiences that I’ve had. When someone says that they want to do something that not a lot of people want to do, I immediately wonder how they will use that against myself or someone else. Because that has happened multiple times to me.
I also hate that I am suspicious of people who want to at least have the opportunity to fully own their devices; something that is perfectly reasonable to want, but I am. What would that additional ability do for them? What will they be capable of doing that they can’t do now? How and when will they use it to get what they want out of someone? Or out of me?
If you don’t think like this, I really envy you. For the longest time, every teacher, every supervisor, every commander, every non-familial authority figure I had until I was probably 35, used and manipulated me for the purpose of advancing themselves. Every single one. The ones in the military didn’t even attempt to hide it.
I’m so scarred because of people convincing me to help them screw me over that I no longer trust anyone who is concerned about things like laptop lid angle sensors. Because who are you trying to screw over and why does that angle sensor stand in your way?
> When someone says that they want to do something that not a lot of people want to do, I immediately wonder how they will use that against myself or someone else. Because that has happened multiple times to me.
I’m intrigued. Would you be comfortable sharing some of these real experiences here (with sensitive details fudged/removed)?
I'd rather not. They're very foggy memories now, and the ones that aren't are all attempted sexual abuse. Conmen are everywhere, and they will say things in the nicest most innocuous ways possible to sway you to do things for them. They'll do it over time, and they will very gradually ramp things up. "this is just a small change from that, what's the matter" ugh. people suck.
that is correct. my specific history pushes me in the direction where i suspect malevolence, though. yours might not. but let me tell you; people are absolutely capable of the worst things you can imagine, and if those people require your cooperation they will try the carrot long before they try the stick.
If you have access to my laptop long and deep enough to replace the hinge sensor with a fake one that prevents the lid from closing as a way to turn it into a recording device -- which of course would also require installing software on it -- instead of just putting a tiny microphone into it (or my bag), you are simultaneously a genius and dumb. And if you really are going to that level of effort, hoping that I don't notice my laptop failing to go to sleep when I close it so you might be able to steal it is crazy when you can 100% just modify the hardware in the keyboard to log my password.
Hell: what you really should do is swap my entire laptop with a fake one that merely shows me my login screen (which you can trivially clone off of mine as it happily shows it to you when you open it ;P) and asks for my password, at which point you use a cellular modem to ship it back to you. That would be infinitely easier to pull off and is effectively game over for me because, when the laptop unlocks and I don't have any of my data (bonus points if I am left staring at a gif of Nedry laughing, though if you showed an Apple logo of death you'd buy yourself multiple days of me assuming it simply broke), it will be too late: you'll have my password and can unlock my laptop legitimately.
> There are good security reasons for a lot of what Apple does.
So, no: these are clearly just excuses, sometimes used to ply users externally (such as yourself) and sometimes used to ply their own engineers internally (such as wherever you heard this), but these mitigations are simply so ridiculously besides the point of what they are supposedly actually securing that you simply can't take them seriously if you put more than a few minutes of thought into how they work... either the people peddling them are incompetent or malicious, and, even if you choose to believe the former over the latter, it doesn't make the shitty end result for the owner feel any better.
I can imagine a different attack vector: A malicious actor doing laptop repairs can absolutely replace the hinge sensor and install software on it. They could draw in people by offering cheaper prices, then steal their info or use it to setup more complex scams.
The counterpoint to this is that car body shops can also plant recording devices in your car. This is true, but the signal-to-noise ratio in terms of stealing valuable data is much lower. I don't have data to back this up, but I assume way more people use their laptops for online purchases and accessing their bank account than doing the same with phone calls in the car.
A repair worker can install software on it without replacing the sensor. Also add a tiny mic without installing the software. Or both.
I mean.. someone could replace your cars breakpads with pieces of wood or plastic, which would seemingly brake on the repair shop parking lot but fail horribly (burn and worse) when you needed them after. Somehow we still let people replace brake pads without having to program in the serial numbers.. for now.
DESCRIPTION
caffeinate creates assertions to alter system sleep behavior. If no
assertion flags are specified, caffeinate creates an assertion to prevent
idle sleep. If a utility is specified, caffeinate creates the assertions
on the utility's behalf, and those assertions will persist for the
duration of the utility's execution. Otherwise, caffeinate creates the
assertions directly, and those assertions will persist until caffeinate
exits.
Installing software generally requires user permission. Replacing Hw can be done surreptitiously. At least that’s the strongman variant of the security argument.
> This could then be combined with some software on the machine to turn a MacBook into a difficult to detect recording device, bypassing protections such as the microphone and camera privacy alerts, since the MacBook would be closed but not sleeping.
Isn't this already possible if the MB is connected to a power source like a portable battery?
As far as I know the mic is still shut off when the machine is set to clamshell mode. That's the point. You cannot use the mic when the lid is closed. It's a hardware cut-off, you cannot configure it in software. Hence my comment about the bug bounty.
If we're talking Bond-tier assessments then Apple already sell a covert microphone: AirTags. They “have no microphone” according to product specs, but they do have a huge speaker, and a speaker and microphone are the same thing like a generator and motor are the same thing: https://in.bgu.ac.il/en/Pages/news/eaves_dropping.aspx
Just because a speaker can technically operate as a microphone doesn’t mean that AirTags would be capable of this. The speaker driver definitely doesn’t have any recording capability. The only reason the 3.5mm jack mentioned in your article is capable of this is because the jack has functionality to allow analog recording for mic/line in cases. No dedicated speaker driver would have this because it would be worthless and costly.
How you can characterize this type of threat as a “James Bond” fantasy in 2025 is breathtaking.
The Federal government is forensically collecting phones during routine border crossings to see if you reposted Fat JD Vance memes. That’s publicly disclosed and well know.
I have no trouble believing that potential enemies of the state like the governor of California and his cabinet are bugged. If I were a person like that, I’d try to take supply chain countermeasures.
Positive take: discourage theft; not only is the device locked down / encrypted and you can't just wipe / reinstall it, you can't even break it down for parts.
When the iphones etc first came out, they were a very attractive target for theft. Come to think of it, that's one reason why I was hesitant to get an iphone back then.
I used to have an extremely negative view on all this serial number pairing that Apple does, then I found out why.
Within mainland China, Apple was facing fraud of having their devices purchased, stripped for genuine parts, and then rebuilt with knockoffs and sold as new to unsuspecting victims within China or returned. This whole thing that we hate in the west was in response to that fraud.
I don't like it at all, but it's not all Apple being assholes.
The situation has changed recently for iphones. Parts are icloud locked now. While the part serial is registered to an icloud locked iphone. Any phone with those parts will refuse to work entirely until the part is either removed or the part is unlinked from the owners account.
This would be the way to go if on the flip side any part that was not iCloud locked could be paired without hassles. Phone stolen/lost/etc? Parts unusable. Phone iCloud unlocked? Parts free for use. Of course this depends on mitigating various ways thieves can iCloud unlock stolen phones..I think the current method is snatching the phone while it's in use and iCloud unlocking it? However that doesn't make much sense since I assume you need some sort of password to do so even if the phone is physically unlocked?
The current way is forcing the owner to icloud unlock it at knifepoint. But I'm pretty sure Apple made a change recently where you have to wait a few hours and pass faceid before the unlock finishees.
Then what stops this "counter-measure" from "working?" Could they not just "flash with a different ROM or something" to allow the part to work normally?
I genuinely doubt that the level of theft ever rose to a large enough margin, if it did, Apple would have pulled out of China.
For reference, Apple employs ex-NSA, CIA, TLA professionals to solve this exact problem with a near endless budget and 0 oversight and accountability.
> I genuinely doubt that the level of theft ever rose to a large enough margin, if it did, Apple would have pulled out of China.
There was a point where the black market in China was making more on Apple products than Apple itself. They initially tried to have stricter warranty conditions in China as a fix, but state media decided this was an affront to the country: https://www.infoworld.com/article/2271627/apple-clarifies-wa...
Hence, the technical fix.
Why pull out when you can apply a technical fix and retain both access to the biggest consumer electronics market in the world and maintain the good graces of the country that manufactures almost all your products?
The reason for that scam is that Apple doesn't make it easy to get genuine parts, so they have to be harvested from existing devices.
I am sure that if the parts were available to anyone from Apple at a reasonable price (like Fairphone or Framework), these scammers would be out of business soon enough. Who would insist on genuine parts and yet choose a shady supplier if it was easy to buy from the manufacturer directly?
Fairphone and Framework don't have this issue because they're low volume and not really profitable targets for secondhand market shenanigans.
A lot of popular android phones have been plagued by secondhand market garbage. People will take broken phones slap some new crappy parts on them that don't even meet original specs, and try to pass them off as something other than what they really are: repaired used phones. Doesn't matter if you can get original parts for them. If you can pass off a phone with crappy parts, you can make more money.
But then, why not just sell straight out fakes? Why bother with all the business of acquiring genuine parts and harvesting them. Just make it all fake and don't bother with harvesting. Harvesting is only worth it if genuine parts are difficult to obtain legitimately.
Also realize that we are not just talking about an iPhone refusing to work with fake parts. We are talking about genuine parts from iPhone A not working with iPhone B of the exact same model.
Because the price, availability, demand, and expertise required to source and/or manufacturer the different components of a phone are different, depending on the part. Third-party refurbishers derive their margin from exploiting these differences. That's why this market exists.
For example, manufacturing the mainboard for a phone is quite expensive and requires components that only a few companies in the world can manufacture. A third-party refurbisher can source mainboards for phones much more cheaply and easily by buying phones that people have dropped and broken.
It's the same reason junkyards exist for cars. The capital require required to manufacture an engine or transmission is quite high. However, removing one from a discarded vehicle is extremely easy and cheap.
> Harvesting is only worth it if genuine parts are difficult to obtain legitimately.
That doesn't make any sense. New and genuine parts are the most expensive components that can be used to repair phones. Third-party and used parts are almost universally cheaper than new original parts. If a refurbisher uses these parts, they can make more money, which is why they do it.
> Also realize that we are not just talking about an iPhone refusing to work with fake parts. We are talking about genuine parts from iPhone A not working with iPhone B of the exact same model.
Yeah, that's the second problem. Even cheaper than low quality third-party parts, are used genuine parts from stolen phones. That market has problems for two group groups. The people buying the phones are still getting Frankenstein phones consisting of used parts, and the people who bought the actual new phones from the manufacturer are now targeted by thieves.
You don't get to be an extremely profitable company by doing things that cynical people online assume are the most profitable thing to do, since they always pick the most evil option assuming it's most profitable.
A lot of "new" products in the "bargain" category can have remanufactured parts, even without telling the end users.
For example, in this DankPods video he pulls apart two cube speakers, and while they look mostly the same on the outside, one has a Nokia-sized lithium battery that is directly soldered to, and the other has a swollen pouch pack: https://www.youtube.com/watch?v=SfnabYBtJ2I&t=325s
Unfortunately end users can't tell whether they got a "race to the bottom" item, so as much as I'd like cheap repairs, it seems like those also come with a huge amount of buyer beware that they may not know about.
> Within mainland China, Apple was facing fraud of having their devices purchased, stripped for genuine parts, and then rebuilt with knockoffs and sold as new to unsuspecting victims within China or returned.
This doesn't make any sense. If Apple wasn't making genuine parts extremely valuable by locking down the hardware, making this proposed scam economically attractive, there would be no such scam. Circular logic.
That is certainly the argument that is made. I don't believe it, however. I don't for one second think that Apple did that for the benefit of users and not as a way to turn an extra buck.
Does it though? Are there statistics that clearly show devices aren't being stolen anymore because they cannot monetize them anymore?
The way I see it the only thing this does is make you feel better the thief cannot monetize it, or use it, but it does nothing to prevent the theft which is really a moot point in the grand scheme of things. We end up paying in this way, of not having the freedom to easily and cheaply replace parts, while being comforted that even though they still are getting stolen from us, whoever steals them cannot use/monetize them. Which is quite primitive in a sense, and I do not think it's worth it. But that's just me.
According to the GSMA last year phone theft (which arguably has much more part serialization and anti-theft measures implemented) has been a steady 1% of smart phone users worldwide. It does not seem these attempts to lock down systems are successful in reducing theft. https://www.gsma.com/solutions-and-impact/industry-services/...
However I wonder if they have had an impact on data and financial theft. Which things like part serialization wouldn't affect but system security measures would.
In the early days, iPhones being both extremely popular and expensive made them pretty big theft targets and Apple was getting pressure from the various state governments to "do something" about the increases in phone theft. At least according to NY and CA, the activation lock alone in iOS7 caused double digit drops in the iPhone theft rates: https://appleinsider.com/articles/14/06/20/police-say-ios-7-...
Yeah, imagine a world where people who are forced to steal are competent enough not only to know which phones they can sell, but to be able to guess the make and model in the middle of a mugging
imagine a world where people who are forced to steal are competent enough not only to know which phones they can sell, but to be able to guess the make and model in the middle of a mugging
No need to imagine. This actually happens with watches.
In Hong Kong (and likely other cities), you can pick a watch from a "catalog" that is a binder of photos of watches on people's wrists in public, and the middleman will have the watch custom-stolen for you.
They actually do though. First thing to learn when swiping is what's worth swiping, and if no one will buy an iphone paper weight then it's not worth the risk.
That might account for a small set of scenarios, most times they just go for whatever sticks to their hand, in pockets/purses, without knowing what they'll get. As long as there's devices that can be monetized they will attempt to steal them if they cannot make sure it's not worth it.
And this would account for pros, let alone newbs in stealing, or just irrational behavior, or people who just enjoy creating harm with no gain.
I think this is a case where the justification is weak and in reality it's more about greed and control on Apple's side rather than some potential benefit that is actually seriously diluted by a lot of other not mentioned factors.
I agree that all the random factors you mentioned exist, and the proportion to random vs targeted theft would be an interesting debate, but there's solid evidence for significant targeted theft. The fencers tell the thieves what to look for.
Yeah it's like saying "home invaders don't know if there is anything good inside they just choose houses at random." The point of the theft is to get something out of it.
I've thankfully never had my house robbed, or a cell phone or laptop stolen. I have had my car broken into. The thieves chucked a paving stone through the window, grabbed a backpack sitting on the passenger's seat, and ran off with it. Left the paving stone in the driver's seat. The backpack had my gym clothes in it. A T-shirt I was rather fond of, a pair of shorts, a few extra pairs of socks, and a shitty pair of sneakers, all were well worn.
Replacing the backpack and gym clothes was probably $100, market value was maybe $10, and it was $507 to fix the window. (my deductible was $500.)
I thought you were going to say "but they ignored the $100 textbook on the dashboard" or something. The anecdote doesn't demonstrate anything. How much of an inconvenience the theft was for you is not a factor for the thief. They got $10 by chucking a rock through a window, and they only lost the opportunity cost of choosing a different victim.
They had to take the cumulative risk of getting caught though - one well-targeted burglary to take a designer handbag or diamond necklace would earn that thief as much as the indiscriminate 'stealing nwallin's gym clothes' thief would make in a year, as long as they had the network to sell the contraband on without incriminating themselves.
That risk is there regardless of what they steal. The kind of thieves who break into cars are low-effort-random-reward. They have neither the patience nor the skill nor the resources for the kind of planning you're referring to. Yes, the bag didn't contain much valuable. A different bag might have. Had the thief known that for a fact beforehand they probably wouldn't have bothered.
Apple could easily have a dialogue that pops up saying:
"The XYZ sensor in this device is still registered to a device attached to robert8 @icloud.com. Please log into that account now to authorize the component swap".
Whilst the swap isn't authorised, firmware would power the system off after 10 mins, making any stolen laptop parts useless.
Thieves once broke into my car. They stole everything, but then have thrown away things they don't need: which was everything except iPad Pro M1. They have even thrown away an e-ink device which was as expensive.
Many signs suggest that the thieves were in an organized group regularly operating in the area, and I'm certain they knew what they were doing.
My iPad has never appeared online after the theft according to my iCloud.
This was in 2024.
I'm confident this iPad didn't just become a paperweight for the organized group of thieves.
But it would become a paperweight for me if, say, the infrared camera went off due to a water damage and I wasn't willing to pay Apple a hefty price for the motherboard replacement.
> More recently London has become known as the “phone-snatching capital of Europe”. If the victims manage to track their devices, the goods are most likely to turn up in China.
> Globalisation created the supply chain that allows each iPhone—assembled from nearly 3,000 components—to reach the hands of a consumer. The same forces inverted see that phone yanked out of it, re-exported and broken apart again.
I wouldn't personally trust the Economist with this kind of thing, at least not compared to publications by technically-minded experts that have been shared elsewhere on this thread, such as the Register. The phone-snatching is real, but the effectiveness of this theft in creating usable spare parts, or of the efficacy Apple's software in reducing said theft, is much harder to determine.
I read somewhere the angle sensor also has a privacy feature of cutting off microphone at hardware level. This is probably the main reason for parts pairing.
... and this can't done with the myriad of other ways a lid can know it's closed.. why?
Presumably MacBooks still have a big un-shuttered camera on the screen? Presumably there is still a light sensor?
I get the idea of parts pairing as a theft/parts-out deterrent -- I don't get it as a method of cutting features on existing machines. "We need the lid angle sensor to be valuable, so let's cut out our eyes and seal our ears."
<shrug> I don't work for Apple and design these things, but for some privacy things they do go to the extreme. I can imagine the scenario where a TLA tries to replace the angle sensor so they can keep the mic open for surveillence reasons, hence why they do parts pairing.
If we want to split hairs, technically it’s robbery, which is more serious than theft. In the UK for example, the maximum sentence for robbery is life imprisonment.
Mostly this is a consequence of laziness rather than a proper attempt at serialisation. The “calibration data” for most small sensors in Apple devices is stored in a centrally in a crypto blob to provide guarantees around component combinations, with sensor serial numbers used as lookup keys. It not usual for the sensor calibration data to computed on a component-by-component basis with calibration blob being computed _before_ the machine is assembled, based on the serial numbers the machine should contain.
So adding a new sensor means new serial number, which means the data lookup now fails. Resulting in the new sensor not working at all.
The pre-computed calibration blobs are neat little manufacturing trick to provide an end-of-line QA check, proving that a specific machine only contains the specific components it’s supposed to have. But it means the setup has no proper fallback mechanism for generating new blobs outside of the manufacturing process.
I personally think it’s a travesty that Apple hasn’t properly addressed this issue and enabled proper 3rd party repairs. But I think it worth recognising that the serialisation mechanism doesn’t exist primarily to prevent repairs, it exists to provide a form of cryptographic integrity check of the manufacturing process. Preventing repairs is just a “happy accident”.
> But I think it worth recognising that the serialisation mechanism doesn’t exist primarily to prevent repairs, it exists to provide a form of cryptographic integrity check of the manufacturing process.
What, you mean in case the parts of two machines accidentally fall out and fall back in to the other machine on the production line or during shipping?
Of course it's to prevent unauthorised repairs. There's no feasible way for the parts to be physically swapped other than someone intentionally doing a repair.
It doesn't even seem like a very good form of QA, since someone without repair experience can always try to take something apart and put it back together. Whether the serials match has little to do with whether the machine is currently assembled correctly.
> What, you mean in case the parts of two machines accidentally fall out and fall back in to the other machine on the production line or during shipping?
No, in case the wrong parts end up in the final machine during assembly. A machines exact components are determined ahead of time, possibly before the individual parts even arrive at the assembly line. Cryptographically binding them together makes it impossible for tampering or mistakes during assembly process to result in unexpected parts ending up in a machine.
How do think a company like Apple protects their supply chain against malicious external actors, or just suppliers taking shortcuts to make a quick buck hoping nobody will notice that what they provided and what they promised they would provide don’t actually line up?
> Of course it's to prevent unauthorised repairs. There's no feasible way for the parts to be physically swapped other than someone intentionally doing a repair.
You don’t honestly think that a company like Apple simply trusts their suppliers and assembly contractors, and doesn’t take steps to make sure every individual component in their devices is exactly the component they specified, and absolutely nothing else?
One can believe that Apple (or any company) should let you do whatever you want with your hardware - in general - and point out any instance when they don't; even if that specific instance is not something that touches you!
This is true of everything. Another example: if you believe in freedom of speech, you should vocally defend anyone who is deprived of it, even when that is not you. Otherwise, you lose by divide and conquer.
To those wondering why the MacBook would have a sensor for this, it’s likely there to support Desk View[0]. It shows the items on your desk in a geometrically correct, top-down view. Knowing the angle of the display is very helpful when applying keystone correction.
Simpler than that I think - when do you turn off the screen or sleep? Because it isn't fully closed, but you want to be able to 'privacy-duck' the screen a bit before that, and having a sensor rather than just a fixed angle switch makes it software defined and something they can update.
If you approach something metalic to the top of the base in the left side of most macbooks you can feel where the magnet is. They either have both systems or maybe they switched this recently.
Presence of a magnet doesn't imply presence of a reed switch - are you sure that's not just to give it some resistance to opening for example? Or angle sensing could be implemented with a magnet and Hall effect sensor.
More likely a hall effect sensor, which is solid state and a lot smaller. And yes, older MacBooks had something like that, as evidenced by the fact you could put them to sleep by holding a magnet in the right place (just to the left of the trackpad IIRC in the models I'm familiar with)
Nice one ! Curious since I know almost nothing about HW - do magnets screw with computer HW otherwise ? I would guess no since we don't use HDD anymore but not sure.
As far as I know, even HDDs were pretty resilient to magnets when in their enclosures. I once took a large magnet meant for holding together concrete forms, one strong enough that it stuck to a ferrous surface it could probably support my weight, and stuck it to a hard drive for a full year to see if it'd break. The drive, as well as all of the data on it, were fine.
When I ran a MacBook Pro in closed clamshell mode and put another laptop on top of it, it went to sleep. Must be a weight sensor in there as well. (/s)
It's one sensor in both cases, and in the latter case you can do so much more: change the thresholds in an update, detect when the lid is in the process of closing, apply hysteresis (on a simple switch, there's an angle where vibration could cause it to bounce between reading open and closed, but with an angle sensor you can use different thresholds for detecting and open and closing state change).
But most of all...you don't have to commit to a behavior early in the design process by molding the switch in exactly the right spot. If the threshold you initially pick isn't perfect, it's much easier to change a line of code than the tooling at the manufacturing plant.
Why use two sensors when one will do? If you already have an angle sensor, it makes sense to get rid of the reed switch and reduce your production costs.
Apple has a history of adding sensors, security chips, etc. a few revisions before the feature they support launches. It’s a really good idea because it helps them sort out the supply chain, reliability, drivers, etc. without any customer impact. It decouples the risks of the hardware project from the risks of the software project.
If things go particularly well you get to launch the feature on multiple hardware revisions at once because the first deployment of the component worked great, which is a neat trick.
Yeah, my iPhone 11 Pro came with the ultra-wideband chip in late 2019, and before the AirTags were released in early 2021, I believe the only thing it was used was for ordering AirDrop targets by proximity. It was clearly intended for the AirTags from the beginning, but it took about 1.5 years before it actually mattered.
At Apple Stores, laptops screens have to be opened exactly at 76 degrees. I wonder if they use this sensor and specific software for adjustment (I'm not implying this is the only reason it's there)
It seems like it would be much quicker and easier to just have a piece of plastic or something cut at a 76 degree angle that they can place on the laptop and fold the screen up to.
Could be that the demo OS reports some metric on how often the laptops are set to 76deg and how often customers move it. Probably a whole ton of usages of the sensor and if it's price comparable to the old close sensor they used to use it would be easy to justify.
I've heard employees use the measurements app in their iPhones sometimes to adjust in the mornings, but having a sensor in the laptop lid seems like a much easier way to do it and you don't need to carry anything with you.
It would not, since you don't want to carry a piece of plastic all day long to set the angle correctly. Most people just use their phones to check the angle though.
I'm assuming so. Apparently it's an angle that "invites" people to use the computers, but I don't think there's anything specific about 76 degrees that makes it better than, say, 73 or 82. As long as you can see the content from an average height, it should work. Most likely they just settle on that angle because it looked good to the store team that was staging the first store, measured it, turned out to be 76 and kept it the same across stores since then for consistency.
I believe the rumor is that 76 degrees is slightly uncomfortable enough to look at that it makes you want to adjust the screen, which in turn makes you more likely to try the device.
Yep this seems like it makes a lot of sense— and adding on, picking a measurement means that all of them can be the same (consistency, as you said)- having variation in the same row would look bad from a distance
Shows you how good they are at planning and decomposing features into well scoped hardware and software features which can ship earlier, provide some value, while enabling richer future features. You have to respect them for this because this is how they have always operated.
This is trivially broken by people who affix some type of cover over the camera. I do this on the off chance some errant application thinks it deserves to take pictures of my environment.
I'm typing on a 2024 Macbook Pro. Is that sufficiently new? I don't see how it would work, practically. The only camera is the user-facing one. If the screen were tilted down toward the desk, I'd have to kneel down to see it.
The Mac camera light is wired inline. If the camera is on, so is the light. Since we're not seeing the camera light flashing on periodically, this isn't how it's being done.
The Macbook tally light isn‘t necessarily wired to the camera. It very well could be independently software controlled. At least it was not too long ago. IIRC there was an article about this, posted here on HN.
Macs used to have (still have?) a feature where you could declare it as lost/stolen and remotely take a photo with the camera. I believe the light didn‘t glow for that.
But is there actually an API for that? Last I checked the big providers Video Intelligence APIs even distinguishing cats and dogs was still unreliable.
Unless I am missing something massive, BirdNET[0] is for identifying birds by sound, not by images.
Merlin[1] (also from Cornell Lab of Ornithology), on the other hand, has both image and sound ID. I haven't used either, so I cannot compare the quality of results from Merlin vs. BirdNET for sound ID, but afaik only Merlin has image ID.
The Mac camera light is wired inline so as to make this impossible. The only way for the camera to be on and the light not is if the light itself is broken.
The sensor angle would be in a file like `/sys/bus/iio/devices/iio:device*/in_angl0_raw` (device number can vary). At least I have this in a config file and remember it working (maybe on a different computer?). I cannot get it to work anymore on my laptop.
> Motion is tracked using the laptop camera via optical flow and mapped to continuous control over dynamics, while the sound is generated in real-time.
Author here. We checked for APIs like this at the time, but since approximately every laptop has a webcam, the cv approach is much more accessible. It would be a fun rewrite though; I’m sure polling this would be a few orders of magnitude more efficient. There was definitely lag if you ran the app on a very underpowered machine which did impact the “playability” of the velocity parameter.
I worked at an Apple retail store during college. We were taught to put the screens at a certain angle but it was a gut feeling angle learned through practice, and not measured. More senior people would correct you if you were off.
They did mandate putting the bezel, mouse, keyboard, etc. at specific grains in the wood that were consistent across the desks though to ensure they were lined up without having to bust out a level-like device.
Overall everything was made so that retail employees would continuously clean up the displays as they walked around the store (even while helping customers without them realizing it) so that the store always felt perfect. They had a phrase for it but I forgot now, it's been almost 15 years now...
This reminds me of those videos where the bar staff try blind pouring a shot, and it's wild how good some people are. Would love to see a similar competition, re: can the most senior store members be accurate to 1° :)
> In Apple Stores all screens are tilted at exactly 76° degrees, this is so you move the screen with your hand…interacting with the product more and making you feel more attached to it.
From the description, I would've thought it meant 76 degrees from the user's PoV, i.e. slightly closed so the user would feel compelled to open it more / tilt it into their view (with their hand). The pictures show ~70 degrees from the back of the devices though, so IDK what they mean about the hand moving the screen. There's no need for interacting then, since the display can be seen from afar.
My first job was at a video rental store. My boss was very strict about the videos being spaced evenly and all at the same angle. Every hour one of us had to walk the entire store straightening everything out. It did look very nice in there.
I wonder why? Presumably this information doesn't come for free, and Apple spends money to put this sensor in.
Is it a backup if the magnet for closed lid detection fails? Is it some kind of input for the brightness sensor or True Tone? Is it for warranty investigation, that if the hinge breaks they can figure out if it was physically pushed too far, or was repeatedly slammed open and shut like a toy?
The info probably does come for free. The laptops don’t use the magnets along the top edge of the screen for detecting if the screen is closed, those magnets are just there to provide the latching effect when the screen is closed, so it doesn’t open accidentally.
The sensor used for detecting if the lid is closed is an “angle” sensor, although really it’s an Hall effect sensor and a magnet in the hinge. If you have a Hall effect sensor, getting angle data from it is pretty much free, because the Hall effect produces a continuously varying signal, you need thresholding logic to turn it into a binary output.
Given Hall effect ICs are so cheap and plentiful there no reason to use anything else. Also given they mass-produced ICs it’s probably cheaper to buy a fully featured Hall Effect IC, because the manufacturing cost between a basic IC and an advanced IC is almost certainly zero these days.
In short, modern IC manufacturing has just made magnetic angle sensors as cheap, if not cheaper, than dump non-angle sensing Hall sensors. After all you can always use an angle sensing Hall sensor as binary switch if you want, but the reverse isn’t true, so if the ICs basically cost the same, you can expect the less capable ICs to be completely outcompeted by the more capable ICs.
They only need to be co-linear to the shaft if you care about accurate measurements, such as in a motor controller. I doubt the error introduced by being off-axis would make much difference in this application.
There are also packaging considerations when putting a hall sensor elsewhere. Packaging it in the hinge has the advantage you can use the same hinge and sensor setup in all laptop models. Packaging the sensor elsewhere means custom packaging setups for each laptop to work around all the other components in the body of the machine. Doing the extra work for packaging in the hinge once is probably quite a bit cheaper than having to constantly redo the packaging work in every new model.
Once upon a time Mac laptops used reed switches to detect closed lids, and they were a common point of failure, presumably since they contained moving parts.
They can be erroneously triggered or prevented from working as expected by nearby magnetic objects too, which can be annoying. No such issue with a hinge angle sensor.
The cost of the software is higher for an angle sensor than a binary switch, but perhaps they consider it NRE (which is actually not true if you consider "maintenance" work.)
We've been using Hall effect sensors for lid close detection for a long, long time. My thinkpad from 2013 has it halfway down one edge.
If you simply move the sensor (that is already a requirement) closer to the hinge, you can infer angle based on the Hall sensor for free. You can even get special sensors that specifically measure the magnetic field orientation for the same price as the simple type.
Yes, it's completely free with just a very minimal amount of thought put into the design.
It’s likely there to support Desk View[0]. Desk View presents the items on your desk in a geometrically correct, top-down view. Knowing the angle of the display is very helpful when applying keystone correction.
Wild idea: if the goal is to wake from sleep as quickly as possible when opening the lid, could receiving a signal as soon as the user starts lifting the screen save a few hundred milliseconds? I might be way off though.
My best guess is it's related to thermal control. The vents on macbooks are right under the hinge, and the vents are blocked and opened to different degrees based on the angle of the lid.
Apple is going to see an increase in MacBook Pro hinges breaking from people trying to play the Star Trek theme in theremin mode or other songs with other instrument sounds.
Apple: How did the hinge break?
Customer: I don’t know, I just opened it one day and it came off.
Great idea! Thinkpads (used to?) have an Active Protection System that used a Free Fall Sensor IMU to park the HDD read/write head in the event of a fall. Don't know if there's an API, though.
You could use that to display some kind of billboard affect, so that an image is always in a correct aspect ration to the observer in front :D Please could someone with a macbook do this and post a video here? :D
There is no official statement about this issue but you can search for user reports like "M2 MacBook Air black screen" or something similar. It is not uncommon.
In older versions of macOS you can simply try two things:
* Press Esc in locking screen, or
* Press "Sleep" from the menu bar icon and then press Esc immediately
If the machine crashes/reboots, the sensor is bad and it needs to be replaced. Apple Store replaces the whole display assembly.
I was wondering this myself. I've had three mac air/books that simply failed to turn the display on. I've heard (from a third party repairer) that it is not uncommon.
The most interesting takeaway from this project and the Mac touchpad actually measuring it's pressure in grams[1] is how Apple seems to prioritise it's ability to deliver new features in later software releases rather than their BOM.
I work in the automotive industry, and for volume products the price-cutting is really brutal. If you can save a cent somewhere you will, because that cent multiplied by 8 million cars a year is a sizeable amount of money.
This seems to be generally true for most OEMs of hardware products, but not for Apple. Apple could have cut costs by just using a magnet and a reed switch/hall effect sensor, because it is not using the exact angle of the screen anyway (afaik?), but they chose not to.
They could have implemented their "3d Touch" by using a simpler circuit which just indicates if the press was really hard or soft. But again they chose not too.
And they sell over 20 million Macs per year, so they really sacrifice a sizeable amount of profit
> Confused why it says that 'this API is not exposed'
What it says is (emphasis mine) “it’s not exposed as a public API”. In other words, Apple doesn’t provide official documentation and hooks for you to interact with the feature, like they do e.g. with Bluetooth. Even then, while they provide public APIs to interact with paired devices, interacting with the Bluetooth controller itself (e.g. turning it completely off or on) requires private APIs.
Great! so they already know that I've been squinting at a 42deg gap trying to use my old MBP. The year with the faulty designed screen connector which was only covered for replacement on certain models, not mine. I wonder if that is why they added this, to check for 'holding the lid wrong'. If I open it any further I need a reboot to get the display back, oh and that angle decreases over time.
I wouldnt mind but I was 95% of the time clamshell, and still the keyboard made from butterflies wings lasted next to no time, and the battery put on too much weight after only 30 something cycles. After all these years I never understand how they produce such lemon models some years, just trying to save a few cents here and there. The one before was thermal paste nvidia meltdown.
I think clamshell mode was a killer of those models especially. I never ran mine closed and still use them for gaming to this day (since they still run Wintel). Not even a single key failed yet
I learned of the lid angle sensor due to my MBP draining its battery. Whenever I flew across the country I'd always end up with a dead battery. Originally thought it was some process preventing sleep but was spinning circles hunting it down until one night, I closed the laptop... the screen turned off as it was closing and just as it shut.. you could see the faint glow of the screen turning back on again. If I cracked the lid open 1/8th of an inch it would turn off again.
I had thought that the MBP (an Intel one) had used magnets to detect lid closure but alas that's when I learned of the lid angle sensor and all the symptoms I was experiencing made sense. Basically the laptop would wake up when shut and the screen would stay on the entire time thus draining the battery.
Ended up getting the LAS replaced which was not DIY'able unfortunately... but was a relatively cheap fix (~$90).
A lot of foldables have a hinge angle sensor - it's actually a public API in Android, and robust enough that we use it to detect whether a device is a foldable:
The first thing that comes to mind is simplifying the identification of a device type, without the necessity of looking up a device list name or updating the list with each new device that gets released.
Foldables have a different UI which often requires different requests to the backend. They need to support both narrow-screen and large-screen formats for content, and you usually want to avoid having critical UI elements fall on the hinge for fairly obvious usability reasons.
That should all be abstracted out to the operating system, not dependent on checking for specific devices. Any app should be able to accommodate different screen/window sizes and safe areas.
The Android OS does provide screen width/height information and safe areas. We use them when appropriate, which is fairly often, but not universally. Safe area support for foldables is pretty weak, though, because it's a relatively new device category that imposes fairly different constraints on devices.
The bigger issue is that there's always a long-tail of product considerations that need to be different on foldables and aren't covered by just feature-detecting the available screen resolution. Logging is one: PMs are very interested in how the category as a whole is performing, if only to direct future hardware plans, and that requires that it actually be categorized as a separate category. Backend requests are another: you can (and should) optimize your bandwidth usage on phones by not shipping to the client information that is only going to be displayed on large screens, and you can (and should) optimize your screen usage on large screens by displaying more information that is not available on phones, but foldables represent the union of the two, and you usually don't want the latency of additional backend requests when the user fold/unfolds the device.
(The irony is that the app in question is Google Play, and I personally know most of the PMs and several of the engineers on Android SysUI.)
There was a sensor where it would detect when you slapped the side of the screen, and a guy wired it up so when you did that it shifted to the next space (virtual desktop).
If I remember correctly, it was originally meant to detect if the laptop was falling, so that it could turn off HDDs to mitigate damage. Hitting the side of the screen could also trigger that sensor.
Reminds me of a "stable window" app gadget from mid-2000's that used the built-in accelerometer to make a window stable irrespectively of laptop's tilt.
As someone who recently wrecked their MacBook's screen by leaving something hard and pointy in between keyboard and screen when closing the lid, I wonder if one can turn on the webcam briefly before the lid closes and sound an alarm if it detects anything in the way.
Does anyone know if this is used by any program to check if you are actually looking at the screen? I could imagine it being used for some blackmirror type stuff
Microsoft has had this in their Surface Book. It has a screen that could detach and be used as a table, which had an accelerometer in it that could measure the angle.
my guess: probably there to support the camera system and depth camera.
although unless there's some sort of angle measurement with respect to the ground in the base, i'm not sure what it would be useful for. maybe to provide continuity for the depth camera when the lid angle is changing (without heavy duty estimation calculations).
At first I wondered why you'd assume the latter – certainly something like a tiny rotary encoder is a simpler lower-tech solution than a MEMS inclinometer. But these days I'm not actually so sure.
It would be cool if the Macbook can figure out the relative position of a newly connected external monitor. It would help in setting up the monitor with little manual adjustments.
Since covid, we no longer have assigned desks at work --- it's first come, first served. And while most are respectful of the desks we have "chosen" for ourselves, every once in a while, I'll have to sit at some other, often new desk. And that means my laptop will not recognize the monitor and that I'll have to configure it (scaling, relative position, etc).
And Windows being the mediocre OS that it is, will always select to duplicate the screens even though the logical choice is to extend. My laptop screen and the external monitor aren't even the same aspect ratio. SMH.
At least Macs have the sense to extend screens by default. Though, if I could place a Macbook on the desk, plug in the external monitor, tilt the screen back until the camera can see the monitor, the hinge sensor and cameras can work together to figure out where the monitor is relative to the laptop, and automatically determine the right settings for the monitor instead of requiring my intervention.
This post was also made (by the same person, it seems) on Mastodon: https://hachyderm.io/@samhenrigold/115159295473019599 — which has the added benefit of not being X, not requiring cookies, and has more information than the tweet, including a follow-up "theremin" hinge.
Fediverse will never be useful because balkanization isn't a desirable feature. The question of "which server should I sign up for" is an irredeemable anchor around anyone's neck before they can even start using it. I'm all for decentralized social media but the whole federated model is so bad.
Have you actually tried using it? I love mastodon now! You can just follow people as normal, a number of pretty interesting folks hang out on there (Brian Krebs etc).
No ads, a timeline which isn't endless and you can actually just read. It's actually really nice! I also think the decentralized non proprietary model brings us closer to something which is becoming ever more important in this world we find ourselves in.
Using it isn't the problem, joining it is. Finding a server that has the right combination of
- isn't The Big One (defeats the point)
- has a nice domain (that's your name forever)
- is stable (major downtime or data loss is unacceptable these days)
- is guaranteed to stick around forever (no, migration isn't solved and it will never not suck)
- has rules you agree with and can guarantee you'll follow
- is running the right software (no, "fedi" isn't compatible, you either run Mastodon or things will always be ever so slightly broken)
Some of the points you make are still true, but I think you're a little out of date.
Migration is not solved, but it also doesn't suck - unless you're doing it every week nothing will break, and several people I follow have already done it and it's been just fine.
Stability is also fine - if your server is down for a couple of hours, your timeline will catch up when it comes back online, and likewise your sent posts will stay in a local outbox until they can be sent. That's absolutely no different from email or Jabber or anything else.
"Fedi" is compatible enough that I run my own GoToSocial server, which is technically still beta software, and I haven't experienced any issues following and interacting with anyone on Mastodon, Pixelfed, Pleroma and quite a few other platforms.
Would I recommend it to a non-technical user, someone who wasn't really interested in 'servers' and 'clients' and 'protocols'? Yes, although I'd suggest they just go for The Big One, as you put it. What I would say though is that this is no longer just a technology for Web nerds any longer; it's a very viable alternative to centralized platforms.
I made a serious effort to look into it, but without already knowing where I want to be it was impossible to decide which server to sign onto and it's an expensive choice to make upfront since they don't all federate with each other and even the ones that do federate are not guaranteed to not start beef with each other. That's before even getting to the fact that I can name at least 4 different protocols off the top of my head (Mastodon, Pleroma, Akkoma, Misskey) at various levels of not-entirely-incompatible with each other. I remember there being work on between-server account moving mechanisms in some state of almost-partially-working, too. Maybe things have changed now but I doubt it, everything I saw in the ecosystem just seemed to promote balkanization as a feature.
I'd love a truly decentralized model for this but fediverse isn't it, fediverse is a Hellenic League of city states where your ability to interact outside your bubble is beholden to your and their local leadership and shifting realities of protocol war jank.
If you do think my opinion is uninformed or mistaken at least know that I know many times more people who bounced off the idea for these reasons than people who actually managed to make heads or tails of this. Fwiw I don't use xitter/bsky either.
Why click on a link that works versus one that doesn't? Is that the question? It's a weird form of evangelism to say that one shouldn't use the working link because it may not work in the future. That's the nature of web, most links decay.
This is exactly why I avoid things like Mastodon as well, because the problem isn't who controls the format, it's the format itself. Who controls the format sure doesn't help, but if you imagine Mastodon becoming as universally adopted as Twitter and seriously don't think it would be a massive mess, then I envy your optimism.
Fedi is different because it isn't proprietary or centralized. A new proprietary and/or centralized alternative is never the answer. That's just buying time.
Personally I am not a fan of the Mastodon software or side of fedi, but I have had good times on the Pleroma/Akkoma side, and it all works together.
It will never be 'it', because I - despite being technically capable of running server on bare metal or something - have no idea what you're talking about. Fedi, Mastodon, Pleroma, Akkoma, there's too much to know or read about before you can just use it. People go to Facebook, to twitter.com, and just sign up and use it and know what it is.
I don’t think that matters that much; it’s still just a popularity contest, and if something manages to break through that threshold, it’ll be trivial enough to make the default.
No one knew Reddit boards and 4chan boards either; you just knew to go to /b/ or /r/funny. The other boards, the other fediverse servers, are just details that enable other subcommunities to survive. The major community will just route to a single server, and most will probably never use a second
Not who you were speaking to, but you just tried to trivialise the power of friction in a signup process, which goes _strongly_ against all known research on the topic.
A social network does not have to be universally adopted to be interesting because the vast majority of the folks do not do or think anything interesting.
A social network with just the top 1% of the geeks would be absolutely amazing.
They called it a “Trojan horse” they shouldn’t be distracted from. They were stating that it was more likely to fail, which isn’t true. You can challenge that without challenging the idea that mastodon can still be a cool place, no one said they couldn’t.
I'm only going to to be alive for a million more hours, and the BDFL in charge of this Xitter is doing a way better job of things. Year of Linux desktop when?
I can't see it, and if I click on @samhenrigold's profile I get a random selection of things from this July and last October instead of recent posts .
It's really not a useful platform for publicly sharing information anymore. Drives me nuts that government agencies use it for announcements like "Here's an amber alert with a twitter link, but you can't have any of the followup information because that's only for people who are logged in."
But you can only see replies to tweets if you're logged in; so thank you for providing that link, but currently, that's the only way that those of us who aren't logged into Twitter can find it.
Not only can you just replace twitter.com with nitter.net, I bet there's a browser extension you can get (or generate in 1 minute with any LLM) that would load any Twitter link into Nitter.
Plenty of people put their content behind paywalls, but apparently, someone who puts theirs behind a free loginwall is a bridge too far? I'm not sure I understand the outrage.
I can't stand Bluesky, but I have an account on it. What the fuck is the big deal?
I am thinking about getting a completely different apple id when I get my next iPhone. I don't have a paid developer account. Or do they actively prohibit multiple accounts? I've never tried on Apple before but I have multiple goog.e accounts and it seems fine to have different accounts on different Android devices?
Moreover on Android you still can have 10 different Google accounts on one phone all from different countries for downloading region-locked apps on Google Play. Though recently Google started to break it by changing account region countries nilly-willy. Yet you can still register as many accounts via Chrome as you wish really without extra gmail accounts just by using own domain redirect via cloudflare or something.
On iOS installed apps are locked into specific Apple ID they been downloaded with, so you might have issues with e.g WhatsApp. Still possible to download region-locked apps with non-primary AppleID, but it will sometimes ask to re-authenticate with said AppleID to keep it updated so it's cant be just throwaway.
Classic Apple overengineering. Every other laptop I know of just uses a single lid switch. It reminds me of their mouse that has capacitive buttons and a speaker to produce clicking sounds.
All kinds of arguments that are “evidence-based” (i.e., have research studies affirming them) are potentially inflammatory when invoked in a given context.
In this case, someone just posted a link to BlueSky and you set off a mini-flamewar. People who act like that offline find their invitations to dinner parties start to dry up. We need people to think about the effect their comments will have on the mood in the thread when commenting here.
Where did I say everyone who disagrees with me is a fascist? You are just attacking a strawman, it's much easier to assume that I am some lunatic who thinks anyone even 1cm to the right of me is literally Hitler, than that I'm just a normal person who thinks Twitter is shit and full of some of the worst people on the planet and owned by one of the worst Americans in history (judging by death toll from cuts to USAID).
But yes Twitter is full of the utter scum of the Earth and no I don't want to have to block them all. Thanks, no thanks.
Yeah, nothing says luxury like a screen as soft as cheese with a big old crease down the middle, that provides absolutely no value. It's like wearing a pair of Prada boots to a job site.
Sometimes, just because you can do something, doesn't mean it's a good idea.
And also it has a magnet to detect the lid being closed. People think this is over engineered, but I've yet to see another brand that has a working closed lid detection
With both Windows and Linux, it's always a luck-of-the-draw thing. Sometimes closing the lid works perfectly, sometimes you get a doofus manufacturer with lousy drivers, so 1 in 20 times you pull your laptop out of your bag and it's red hot with a drained battery.
It's maddening that only Apple gets this right 100% of the time, and it's among the things keeping me on Apple's platform for the moment. I can't fathom why this isn't a bigger priority for everyone else: much like "trackpads that don't suck", it's a huge quality-of-life thing which keeps tons of people on Macs because they want it to Just Work without ever thinking about it.
>sometimes you get a doofus manufacturer with lousy drivers, so 1 in 20 times you pull your laptop out of your bag and it's red hot with a drained battery.
That's due to "connected standby"[1], which is to have laptops behave more like a phone when in sleep. This is in contrast to S3 sleep, which basically halts all activity. Sounds all good in theory, but as soon as you allow code to be run while in sleep, it's easy for some runaway app (OS or third party) to eat through your battery even while your laptop is "sleeping". Worse is that there's no way to force sleep, so your only choice is hibernate, which is even worse than S3 sleep before.
“Modern standby” is indeed the culprit in many cases, maybe even the primary one these days, but to my understanding it can still be a crapshoot on laptops that support S3 sleep since it’s up to the OS to detect that the lid has been closed and put the machine to sleep. This has been a problem for a very long time, since well before it became cool to pretend to be a smartphone and not actually sleep the machine.
There’s also wake on LAN which if enabled can rouse the machine from sleep after it’s successfully entered a sleep state.
Source: My macbook has drained its battery flat while closed in my bag dozens of times. Then it just stopped doing that on an OS update. I still have no idea why.
For a long time (years) there was a bug in Firefox that'd prevent a Windows machine from going to sleep if webgl content was loaded in any FF tab.
So anyway that killed one of my laptop's batteries. So much for supporting Internet freedoms...
Windows comes with a utility that'll tell you what process denied a sleep request, super useful.
I've actually ran into MacBooks not sleeping a few times, but it is much rarer.
It is unfortunate because back on the mid 2000s windows had the best functioning sleep code, but then they tried to catch up with iPad's # instant on and chasing perfection led to the current mess.
The old Intel models were hit or miss, but with the M-series models I’ve never had problems with MacBooks not going to sleep when the lid is shut and staying that way so long as wake on LAN is disabled (or disabled on battery). That setting does need to be off though, with it on I did observe occasional misbehavior.
What makes you think that these issues you describe (which I've experienced too, FWIW) are problems related to the sensor rather than the OS or drivers?
I don't think this is about the hardware driver detection of the lid closing. Lid events are a first-class thing in ACPI and I've never seen a laptop that didn't have one, or any real evidence that one didn't do the thing.
Much more likely is that the OS was prevented from going to sleep by some badly behaved process, or got woken up by another thing like allowing USB to wake it from sleep, where even touching the mouse can wake it - with some laptop equivalent like a ghost touchpad touch or whatever.
The magnets work too well. Having one Thinkpad Yoga sat on top of another closed Yoga tricks the sensor into thinking it's in tablet mode and it disables the keyboard. I only lost 30min or so trying to work out what was happening...
There's decent reasons to over-engineer some of these sensors so they can't be unduly tricked by external influences.
If you're talking about laptops waking up inside backpacks- that's due to the terrible implementation of "Windows Modern Standby" that has ruined every laptop except Macbooks and Framework. (Framework still implements legacy S3 standby to improve compatibility with Linux.)
This has been an issue for so long - who is at fault? Is it hardware vendors or software? The spec itself is so bad that all implementations will disagree?
Halting power until an external physical event seems like a simple enough idea. I have never wanted to close my laptop and let it keep number crunching.
I've also found my work MacBook Pro heating up my backpack sleeve a number of times because it didn't properly go to sleep. Likely culprit is some "security" spyware the company installs.
Yea this is how the new Apple silicon devices will start if they are off. The fingerprint sensor is just used to manually do it or override the current state / put it into recovery mode.
So the hardware is capable of performing the calibration, Apple just does not graciously grant you the right to install a recycled or third party sensor in your machine.
https://www.ifixit.com/Answers/View/759262/Torn+Lid+angle+se...
https://news.ycombinator.com/item?id=24955071
https://news.ycombinator.com/item?id=36926276
No, it actually does set the zero point.
"Set the angle to 0 (closed) and press Enter. Open 10 degrees and press Enter. Repeat for every 10 degrees from 0 to 170" would be an example of actual calibration.
What do you think calibration of digital devices entails?
It does involve exactly that. Whereas in an analog device you would be adjusting a potentiometer or something similar
The measurement happening on the lid is the "lid closed" point
Also, one wonders just how horrible their production tolerances must be if something like this even needs that sort of calibration in the first place. No other company does this. Nonetheless, even if one accepts this bizarre excuse at face value, it doesn't take a genius to realise that the firmware can "self-calibrate" trivially: If the EEPROM in the sensor is uninitialised, then it just needs to record the max/min value the first time it's closed, and save that as the "lid closed" point.
The only plausible explanation for doing all this extra work is that this isn't merely incompetence; it's intentional malice. Given how much Apple spends on lobbying and other hostile activities, this is not surprising.
But yes, if you don’t do it correctly, you will burn the service part and have to replace it again.
From that perspective making it one-time programmable is not unreasonable.
Though it could be simpler if it was something like a magnet on the lid that activates a magnetic switch on the bottom part (and it would be harder to have a false negative result). But Apple is going to Apple
This could then be combined with some software on the machine to turn a MacBook into a difficult to detect recording device, bypassing protections such as the microphone and camera privacy alerts, since the MacBook would be closed but not sleeping.
Additionally, since the auto-locking is also tied to triggering sleep mode, it would be possible to gain access to a powered off device, switch the sensors, wait for the user to attempt to sleep mode the device, and then steal it back, completely unlocked with full access to the drive.
Are these absolutely ridiculous, James Bond-tier threat assessments? Yes, absolutely. But they're both totally feasible (and not too far off from exploits I've heard about in real life), and both are completely negated by simply serializing the lid sensor.
Should Apple include an option, buried in recoveryOS behind authentication and disk unlock steps like the option to allow downgrades and allow kernel extensions, that enables arbitrary and "unauthorized" hardware replacements like this? Yes, they really should. If implemented correctly, it would not harm the security profile of the system while still preventing the aforementioned exploits.
There are good security reasons for a lot of what Apple does. They just tend to push a little too far beyond mitigating those security issues into doing things which start to qualify as vendor lock-in.
I really wish people would start to recognize where the line should be drawn, rather than organizing into "security of the walled garden" versus "freedom of choice" groups whenever these things get brought up. You can have both! The dichotomy itself is a fiction perpetuated to defend the status quo.
As the user and owner of the product, I should be the sole decider about my own security posture, not some company who doesn’t know my use case or needs.
It’s crazy how we’ve managed to normalize the manufacturer making these kinds of blanket decisions on our behalf.
A lid sensor is just so peripheral. Where do the vendor lock-ins end?
A more accurate analogy, is like a lock installed on your door by a locksmith that uses proprietary parts available only through locksmiths. Which is exactly how a lot of locks work.
Proprietary technology exists in a lot of places, Apple didn't invent this.
Apple is worse than a government. They have more money and reach than many governments and unlike many government officials, the public doesn't have the power to vote the heads of apple out of office or vote for who they want as a replacement.
Apple didn't invent proprietary technology, but they leverage the shit out of it in consumer hostile ways just to take even more money from people.
Your relationship with Apple is very different. If you don't like Apple, you can just simply not buy or use their products. You have a choice and they have no way of compelling you otherwise.
And unlike my (technically democratically elected government), corporations do not have to answer to the people they exert their power over.
Yet, somehow, when it comes to technology products, we accept the manufacturer butting in to tell us how not to use them, and how not to repair them.
I can't name a single product in my house that uses any sort of open hardware design, except for the things, I've 3D printed or built myself.
There’s a whole repairability movement going on to maintain access to third party replacement parts for cars and appliances. This is a recent design choice that is being enforced by manufacturers. Historically, people have been able to repair everything they owned. Locking everything down is bad for consumers.
I understand arguments for repairability, and in most cases, I agree with them. But these things aren't boolean situations where things are either repairable or they are not. There's a lot of nuance in how things are designed and how repairable they are as an inherent part of that design. Ultimately, I agree that artificial lock-in for no reason other than that lock-in is a bad thing for consumers. But not everything is really that simple.
> Historically, people have been able to repair everything they owned.
It all depends on how you define "able". Most people lack technical ability to repair most things for thousands of years. And most things that you own today you are permitted to repair to the best of your ability.
How'd we get to tyrannical government oversight from shitty corporate control? Sorry, I think I slipped on that slippery slope.
The better analogy would be "door lock vendor requires you to buy their door frame to make their door lock work with the security guarantees you chose to buy into."
Government should stay out of our private lives, but this kind of jumpy fear-mongering is what makes people lose focus, and when people are run by fear that's when the real psychopaths start taking advantage. Your fear mongering is creating the very government tyranny you're mongering about.
It's not so cut and dry though. The "user" and the "owner" of a product are not always the same person, but hardware security impacts the "user" more than the "owner".
There’s a secondary argument you could make here whereby because the replacements must be valid Apple parts that have uniform behavior and tolerances, the strength of the secondary market is stronger and Apple products have a stronger resale value as a result, because you’re not going to encounter a MacBook with an arbitrary part replaced that you as the second-hand buyer know nothing about (this is why the secondary market for cars doesn’t work without the ability to lookup the car history by VIN).
You can do whatever you want with your computer. But nobody has to design it the way you like it.
These sorts of things are exactly the types of problems that exist in the used car market, for exactly the same reasons.
When I replace a wheel bearing assembly in my driveway, you still can't see that by looking up my VIN. Nobody knows except myself and the person I bought the parts from.
Was it a dealer part? An OEM part? A poor quality replacement? Can't tell without looking.
This might actually support Apple's side of the argument, although I do not. I don't think we need some Carfax equivalent for MacBooks.
In some ways, Apple's scheme is better than Carfax. In other ways, it's worse.
It's worse because you can't get access to the repair history of a device.
It's better because you can actually have a reasonable degree of confidence that no "driveway repairs" have taken place since Apple's scheme is not known to be broken.
Kind of scary how "repairing your own things yourself" has fallen so far out of fashion. We should be applauding and encouraging people to build these kind of skills, not insulting them.
All four bearings are part of an assembly that bolts in. 8 or 12 bolts depending on position. I'm lucky that I don't even need a press.
The wheel comes off (5 bolts), the brakes come off (2 bolts), the axle/hub bolt comes out (1 bolt), and then on the front there are four bolts holding the assembly to the car. On the rear, nothing holds it on except that hub bolt.
Use a torque wrench to get them to spec. The kits came with new bolts. The axle bolts go on tight tight.
I want Apple to lock down my device to customization, repairs, etc..
I know I am never going to install an app through means other than the app store, even if I could. I know I'm never going to repair my device through anyone other than Apple, even if I could. I want to know that my device will be a $1,000 paperweight to anyone who steals it.
I want to pay Apple to ensure there are no "driveway repairs".
A number of years ago I accidentally ended up with a second hand iPhone with a shitty "fake" screen repair. I had no way of knowing it wasn't an Apple screen. But it fucked me over as soon as it started failing a couple months after I bought it.
I get tired of the people demanding that a company, with willing, paying customers, isn't allowed to protect their customers because they want something the company doesn't offer. Fuck right off with that shit and buy from a company that does offer that.
If they could get away with it, they’d likely prevent resale entirely.
Apple already will give you discounts if you upgrade some things.
So the resale value will continue albeit at a fixed price
They butchered your repair, you demand a fix or a compensation for a new phone. That's what customer protection laws are for.
Laws are how society operates.
If you need traffic rules (those are defined by laws fyi) then clearly individual's ability to drive isn't worth much. Let's abolish car ownership, make Apple operate all ground transportation and prohibit anyone else from deciding where Apple-operated cars go, what are operational hours and where the stops are.
Shhhhhh! Don’t give them any more bad ideas or they might actually do it.
The noise made about security is absolutely ridiculous.
The sensor in her macbook lid does not matter! Get real.
If you were a journalist reporting on russia or the UAE it would certainly matter.
Not to mention that it’s not that hard to imagine an AI tool being paired with 24/7 surveillance that reports back private information it hears.
It’s also not hard to imagine your average hackers getting their hands on a tool like that after a couple years of governments deploying it.
This laptop lid threat is fantasy. Get fucking real.
Another answer, mine, is that one grandmother flew bombers, jets, spitfires, etc. in WWII and ran a post war international logistics company after that. The other did "stuff" with math.
ie. Both capable of understanding a security posture.
How about your grannies?
You might want to ask well formed questions in future, on a site such as HN the set of all grandmothers is hardly homogeneous.
1984 references may have seen farfetched but after the suppression of rights using covid as an excuse people have little to no recourse to claim control back. Apple was always famous for their walled garden and tight control, but we have Google becoming like apple (can't install things in your device unless you go to them with your private details), ID to track your movements because "protect the children" (effectively blocking news even), chat control (very similar to installing a camera in your home and recording all your conversations).
Corps and governments are relying on each other to strengthen their control and it's not a surprise.
With that being said, I don’t think Apple see this specific part as a security critical component, because the calibration is not cryptographic and just sets some end point data. Apple are usually pretty good about using cryptography where they see real security boundaries.
Companies as big as Apple and Google that provide such immensely important platforms and devices should have their hands tied by every major government's regulatory bodies to keep the hardware open for innovation without taxation and control.
We've gone from open computing to serfdom in the last 20 years, and it's only getting worse as these companies pile on trillions after trillions of nation state equivalent market cap.
If you're selling cell phones you already spend plenty of time satisfying regulators and vendors from all over the world. The cell phone companies aren't the ones with power here. (In general tech people have no political power because none of them have any social skills.)
* A remote attacker gains whatever privilege lets them get to the sensor SPI. * Without OTP calibration, the attacker could reprogram the sensor silently to report a different endstop, keeping the machine awake and the hard-cuts active. * With OTP calibration, this is closed.
So perhaps it is more security-related than I initially thought.
I was more considering the counterfeit part / supply chain / evil maid scenario, where the fact that Apple's sensors are OTP is meaningless (since a replacement sensor doesn't need to be, plus, you could just put a microcontroller pretending to be a sensor in there since there's no actual protection).
Thanks, you made me think again and figure it out!
“Sure, you can borrow my laptop. It’s fine. Take it home. I promise not to spy on you while the lid is closed. I promise not to record aaaaaany audio or anything! And I definitely won’t hear any conversation that contains information that I’ll use to stalk you later!”
There are a million ways that some nefarious person could spy on another, but at least this isn’t one of them.
And I am a very suspicious person, thanks to some eye opening experiences that I’ve had. When someone says that they want to do something that not a lot of people want to do, I immediately wonder how they will use that against myself or someone else. Because that has happened multiple times to me.
I also hate that I am suspicious of people who want to at least have the opportunity to fully own their devices; something that is perfectly reasonable to want, but I am. What would that additional ability do for them? What will they be capable of doing that they can’t do now? How and when will they use it to get what they want out of someone? Or out of me?
If you don’t think like this, I really envy you. For the longest time, every teacher, every supervisor, every commander, every non-familial authority figure I had until I was probably 35, used and manipulated me for the purpose of advancing themselves. Every single one. The ones in the military didn’t even attempt to hide it.
I’m so scarred because of people convincing me to help them screw me over that I no longer trust anyone who is concerned about things like laptop lid angle sensors. Because who are you trying to screw over and why does that angle sensor stand in your way?
I’m intrigued. Would you be comfortable sharing some of these real experiences here (with sensitive details fudged/removed)?
Hell: what you really should do is swap my entire laptop with a fake one that merely shows me my login screen (which you can trivially clone off of mine as it happily shows it to you when you open it ;P) and asks for my password, at which point you use a cellular modem to ship it back to you. That would be infinitely easier to pull off and is effectively game over for me because, when the laptop unlocks and I don't have any of my data (bonus points if I am left staring at a gif of Nedry laughing, though if you showed an Apple logo of death you'd buy yourself multiple days of me assuming it simply broke), it will be too late: you'll have my password and can unlock my laptop legitimately.
> There are good security reasons for a lot of what Apple does.
So, no: these are clearly just excuses, sometimes used to ply users externally (such as yourself) and sometimes used to ply their own engineers internally (such as wherever you heard this), but these mitigations are simply so ridiculously besides the point of what they are supposedly actually securing that you simply can't take them seriously if you put more than a few minutes of thought into how they work... either the people peddling them are incompetent or malicious, and, even if you choose to believe the former over the latter, it doesn't make the shitty end result for the owner feel any better.
The counterpoint to this is that car body shops can also plant recording devices in your car. This is true, but the signal-to-noise ratio in terms of stealing valuable data is much lower. I don't have data to back this up, but I assume way more people use their laptops for online purchases and accessing their bank account than doing the same with phone calls in the car.
I mean.. someone could replace your cars breakpads with pieces of wood or plastic, which would seemingly brake on the repair shop parking lot but fail horribly (burn and worse) when you needed them after. Somehow we still let people replace brake pads without having to program in the serial numbers.. for now.
Travelling back you would notice a microphone, and would notice nothing on the laptop.
Isn't this already possible if the MB is connected to a power source like a portable battery?
The Federal government is forensically collecting phones during routine border crossings to see if you reposted Fat JD Vance memes. That’s publicly disclosed and well know.
I have no trouble believing that potential enemies of the state like the governor of California and his cabinet are bugged. If I were a person like that, I’d try to take supply chain countermeasures.
Positive take: discourage theft; not only is the device locked down / encrypted and you can't just wipe / reinstall it, you can't even break it down for parts.
When the iphones etc first came out, they were a very attractive target for theft. Come to think of it, that's one reason why I was hesitant to get an iphone back then.
Within mainland China, Apple was facing fraud of having their devices purchased, stripped for genuine parts, and then rebuilt with knockoffs and sold as new to unsuspecting victims within China or returned. This whole thing that we hate in the west was in response to that fraud.
I don't like it at all, but it's not all Apple being assholes.
I genuinely doubt that the level of theft ever rose to a large enough margin, if it did, Apple would have pulled out of China.
For reference, Apple employs ex-NSA, CIA, TLA professionals to solve this exact problem with a near endless budget and 0 oversight and accountability.
Most notably, one of the organisational leaders was caught bribing the sheriff's office for concealed carry permits, https://www.ft.com/content/e73676d7-c6bc-4b07-b9bf-9bd702f1f... / https://www.theregister.com/2023/08/29/apples_chief_security...
There was a point where the black market in China was making more on Apple products than Apple itself. They initially tried to have stricter warranty conditions in China as a fix, but state media decided this was an affront to the country: https://www.infoworld.com/article/2271627/apple-clarifies-wa...
Hence, the technical fix.
Why pull out when you can apply a technical fix and retain both access to the biggest consumer electronics market in the world and maintain the good graces of the country that manufactures almost all your products?
The checks are not entirely in software, and would not be in showing the error, either.
I am sure that if the parts were available to anyone from Apple at a reasonable price (like Fairphone or Framework), these scammers would be out of business soon enough. Who would insist on genuine parts and yet choose a shady supplier if it was easy to buy from the manufacturer directly?
A lot of popular android phones have been plagued by secondhand market garbage. People will take broken phones slap some new crappy parts on them that don't even meet original specs, and try to pass them off as something other than what they really are: repaired used phones. Doesn't matter if you can get original parts for them. If you can pass off a phone with crappy parts, you can make more money.
Also realize that we are not just talking about an iPhone refusing to work with fake parts. We are talking about genuine parts from iPhone A not working with iPhone B of the exact same model.
Because the price, availability, demand, and expertise required to source and/or manufacturer the different components of a phone are different, depending on the part. Third-party refurbishers derive their margin from exploiting these differences. That's why this market exists.
For example, manufacturing the mainboard for a phone is quite expensive and requires components that only a few companies in the world can manufacture. A third-party refurbisher can source mainboards for phones much more cheaply and easily by buying phones that people have dropped and broken.
It's the same reason junkyards exist for cars. The capital require required to manufacture an engine or transmission is quite high. However, removing one from a discarded vehicle is extremely easy and cheap.
> Harvesting is only worth it if genuine parts are difficult to obtain legitimately.
That doesn't make any sense. New and genuine parts are the most expensive components that can be used to repair phones. Third-party and used parts are almost universally cheaper than new original parts. If a refurbisher uses these parts, they can make more money, which is why they do it.
> Also realize that we are not just talking about an iPhone refusing to work with fake parts. We are talking about genuine parts from iPhone A not working with iPhone B of the exact same model.
Yeah, that's the second problem. Even cheaper than low quality third-party parts, are used genuine parts from stolen phones. That market has problems for two group groups. The people buying the phones are still getting Frankenstein phones consisting of used parts, and the people who bought the actual new phones from the manufacturer are now targeted by thieves.
That said...
I demand that Apple makes genuine parts available to end users and 3rd repair shops.
And being 100% pro Right to Repair, I support repairs with non-genuine parts.
For peace of mind, have your gear repaired by Apple. For the cost sensitive and tinkerers, you have options.
I would presume that the world's third largest company by market cap would be attracted to that option because it's the most profitable thing to do.
Yes -- there is a nuance between 'most profitable' and 'most thrifty'.
For example, in this DankPods video he pulls apart two cube speakers, and while they look mostly the same on the outside, one has a Nokia-sized lithium battery that is directly soldered to, and the other has a swollen pouch pack: https://www.youtube.com/watch?v=SfnabYBtJ2I&t=325s
Unfortunately end users can't tell whether they got a "race to the bottom" item, so as much as I'd like cheap repairs, it seems like those also come with a huge amount of buyer beware that they may not know about.
This doesn't make any sense. If Apple wasn't making genuine parts extremely valuable by locking down the hardware, making this proposed scam economically attractive, there would be no such scam. Circular logic.
Does it though? Are there statistics that clearly show devices aren't being stolen anymore because they cannot monetize them anymore?
The way I see it the only thing this does is make you feel better the thief cannot monetize it, or use it, but it does nothing to prevent the theft which is really a moot point in the grand scheme of things. We end up paying in this way, of not having the freedom to easily and cheaply replace parts, while being comforted that even though they still are getting stolen from us, whoever steals them cannot use/monetize them. Which is quite primitive in a sense, and I do not think it's worth it. But that's just me.
However I wonder if they have had an impact on data and financial theft. Which things like part serialization wouldn't affect but system security measures would.
No need to imagine. This actually happens with watches.
In Hong Kong (and likely other cities), you can pick a watch from a "catalog" that is a binder of photos of watches on people's wrists in public, and the middleman will have the watch custom-stolen for you.
And this would account for pros, let alone newbs in stealing, or just irrational behavior, or people who just enjoy creating harm with no gain. I think this is a case where the justification is weak and in reality it's more about greed and control on Apple's side rather than some potential benefit that is actually seriously diluted by a lot of other not mentioned factors.
https://www.bbc.com/news/av/uk-68003783
I agree that all the random factors you mentioned exist, and the proportion to random vs targeted theft would be an interesting debate, but there's solid evidence for significant targeted theft. The fencers tell the thieves what to look for.
Replacing the backpack and gym clothes was probably $100, market value was maybe $10, and it was $507 to fix the window. (my deductible was $500.)
Outside nwallin's car: no valuables
Inside nwallin's car: maybe valuables?
Apple could easily have a dialogue that pops up saying:
"The XYZ sensor in this device is still registered to a device attached to robert8 @icloud.com. Please log into that account now to authorize the component swap".
Whilst the swap isn't authorised, firmware would power the system off after 10 mins, making any stolen laptop parts useless.
Thieves once broke into my car. They stole everything, but then have thrown away things they don't need: which was everything except iPad Pro M1. They have even thrown away an e-ink device which was as expensive.
Many signs suggest that the thieves were in an organized group regularly operating in the area, and I'm certain they knew what they were doing.
My iPad has never appeared online after the theft according to my iCloud.
This was in 2024.
I'm confident this iPad didn't just become a paperweight for the organized group of thieves. But it would become a paperweight for me if, say, the infrared camera went off due to a water damage and I wasn't willing to pay Apple a hefty price for the motherboard replacement.
https://www.economist.com/interactive/britain/2025/08/17/the...
> More recently London has become known as the “phone-snatching capital of Europe”. If the victims manage to track their devices, the goods are most likely to turn up in China.
> Globalisation created the supply chain that allows each iPhone—assembled from nearly 3,000 components—to reach the hands of a consumer. The same forces inverted see that phone yanked out of it, re-exported and broken apart again.
> Stolen iPhone is in Shenzhen, Guangdong, China; what can I do?
Presumably MacBooks still have a big un-shuttered camera on the screen? Presumably there is still a light sensor?
I get the idea of parts pairing as a theft/parts-out deterrent -- I don't get it as a method of cutting features on existing machines. "We need the lid angle sensor to be valuable, so let's cut out our eyes and seal our ears."
https://support.apple.com/en-au/guide/security/secbbd20b00b/...
Someone depriving me of it is theft.
So adding a new sensor means new serial number, which means the data lookup now fails. Resulting in the new sensor not working at all.
The pre-computed calibration blobs are neat little manufacturing trick to provide an end-of-line QA check, proving that a specific machine only contains the specific components it’s supposed to have. But it means the setup has no proper fallback mechanism for generating new blobs outside of the manufacturing process.
I personally think it’s a travesty that Apple hasn’t properly addressed this issue and enabled proper 3rd party repairs. But I think it worth recognising that the serialisation mechanism doesn’t exist primarily to prevent repairs, it exists to provide a form of cryptographic integrity check of the manufacturing process. Preventing repairs is just a “happy accident”.
What, you mean in case the parts of two machines accidentally fall out and fall back in to the other machine on the production line or during shipping?
Of course it's to prevent unauthorised repairs. There's no feasible way for the parts to be physically swapped other than someone intentionally doing a repair.
It doesn't even seem like a very good form of QA, since someone without repair experience can always try to take something apart and put it back together. Whether the serials match has little to do with whether the machine is currently assembled correctly.
No, in case the wrong parts end up in the final machine during assembly. A machines exact components are determined ahead of time, possibly before the individual parts even arrive at the assembly line. Cryptographically binding them together makes it impossible for tampering or mistakes during assembly process to result in unexpected parts ending up in a machine.
How do think a company like Apple protects their supply chain against malicious external actors, or just suppliers taking shortcuts to make a quick buck hoping nobody will notice that what they provided and what they promised they would provide don’t actually line up?
> Of course it's to prevent unauthorised repairs. There's no feasible way for the parts to be physically swapped other than someone intentionally doing a repair.
You don’t honestly think that a company like Apple simply trusts their suppliers and assembly contractors, and doesn’t take steps to make sure every individual component in their devices is exactly the component they specified, and absolutely nothing else?
I think you should also think more about this.
One can believe that Apple (or any company) should let you do whatever you want with your hardware - in general - and point out any instance when they don't; even if that specific instance is not something that touches you!
This is true of everything. Another example: if you believe in freedom of speech, you should vocally defend anyone who is deprived of it, even when that is not you. Otherwise, you lose by divide and conquer.
Apes together strong.
0: https://support.apple.com/en-us/121541
But most of all...you don't have to commit to a behavior early in the design process by molding the switch in exactly the right spot. If the threshold you initially pick isn't perfect, it's much easier to change a line of code than the tooling at the manufacturing plant.
But this sensor has been in MacBooks since the 2019 models.
If things go particularly well you get to launch the feature on multiple hardware revisions at once because the first deployment of the component worked great, which is a neat trick.
Is it just an image transformation or a full blown AI model using Gaussian Splats or something along those lines?
Macs used to have (still have?) a feature where you could declare it as lost/stolen and remotely take a photo with the camera. I believe the light didn‘t glow for that.
not only for mac users.
Not condoning people make this app, just thinking about how fast things have moved in just a few short years.
Merlin[1] (also from Cornell Lab of Ornithology), on the other hand, has both image and sound ID. I haven't used either, so I cannot compare the quality of results from Merlin vs. BirdNET for sound ID, but afaik only Merlin has image ID.
0. https://birdnet.cornell.edu/
1. https://merlin.allaboutbirds.org/
https://code.flickr.net/2014/10/20/introducing-flickr-park-o...
Plenty of users put stickers on their cameras. One simple user trick would break your whole workflow.
https://www.phoronix.com/news/Intel-Hinge-Driver-Linux-5.12
The sensor angle would be in a file like `/sys/bus/iio/devices/iio:device*/in_angl0_raw` (device number can vary). At least I have this in a config file and remember it working (maybe on a different computer?). I cannot get it to work anymore on my laptop.
A lot of the tech Apple uses is made by Samsung and others and you'd think everyone else works with sticks and stones.
https://store.steampowered.com/app/1059990/Trombone_Champ/
Is 802.11 signal strength consistent/detailed enough that it could be used as another kind of input, as someone cradles the laptop in different ways?
https://nime.org/proc/meacham2016/index.html
The only thing "Apple" here is that it's not exposed as a public API.
No, it's a different method.
I wonder if Apple uses this internally at Apple stores to set the screen angle at 76 degrees.
I worked at an Apple retail store during college. We were taught to put the screens at a certain angle but it was a gut feeling angle learned through practice, and not measured. More senior people would correct you if you were off.
They did mandate putting the bezel, mouse, keyboard, etc. at specific grains in the wood that were consistent across the desks though to ensure they were lined up without having to bust out a level-like device.
Overall everything was made so that retail employees would continuously clean up the displays as they walked around the store (even while helping customers without them realizing it) so that the store always felt perfect. They had a phrase for it but I forgot now, it's been almost 15 years now...
From the description, I would've thought it meant 76 degrees from the user's PoV, i.e. slightly closed so the user would feel compelled to open it more / tilt it into their view (with their hand). The pictures show ~70 degrees from the back of the devices though, so IDK what they mean about the hand moving the screen. There's no need for interacting then, since the display can be seen from afar.
https://youtube.com/shorts/sgqTEjN5_vQ
https://youtu.be/Uivp-hvk-nk
Edit: not forgetting the classic Miles Davis door: https://youtu.be/wwOipTXvNNo
("It’s such a fine line between stupid and clever.")
https://sound-effects.bbcrewind.co.uk/
There must be a door or two in there.
Is it a backup if the magnet for closed lid detection fails? Is it some kind of input for the brightness sensor or True Tone? Is it for warranty investigation, that if the hinge breaks they can figure out if it was physically pushed too far, or was repeatedly slammed open and shut like a toy?
The sensor used for detecting if the lid is closed is an “angle” sensor, although really it’s an Hall effect sensor and a magnet in the hinge. If you have a Hall effect sensor, getting angle data from it is pretty much free, because the Hall effect produces a continuously varying signal, you need thresholding logic to turn it into a binary output.
Given Hall effect ICs are so cheap and plentiful there no reason to use anything else. Also given they mass-produced ICs it’s probably cheaper to buy a fully featured Hall Effect IC, because the manufacturing cost between a basic IC and an advanced IC is almost certainly zero these days.
In short, modern IC manufacturing has just made magnetic angle sensors as cheap, if not cheaper, than dump non-angle sensing Hall sensors. After all you can always use an angle sensing Hall sensor as binary switch if you want, but the reverse isn’t true, so if the ICs basically cost the same, you can expect the less capable ICs to be completely outcompeted by the more capable ICs.
I personally am surprised they don't put an accelerometer in both halves of the laptop and use math to calculate the angle based on gravity.
There are also packaging considerations when putting a hall sensor elsewhere. Packaging it in the hinge has the advantage you can use the same hinge and sensor setup in all laptop models. Packaging the sensor elsewhere means custom packaging setups for each laptop to work around all the other components in the body of the machine. Doing the extra work for packaging in the hinge once is probably quite a bit cheaper than having to constantly redo the packaging work in every new model.
If you simply move the sensor (that is already a requirement) closer to the hinge, you can infer angle based on the Hall sensor for free. You can even get special sensors that specifically measure the magnetic field orientation for the same price as the simple type.
Yes, it's completely free with just a very minimal amount of thought put into the design.
0: https://support.apple.com/en-us/121541
Apple: How did the hinge break?
Customer: I don’t know, I just opened it one day and it came off.
"I was just hitting the side of my laptop in order to go to Safari"
No longer supported because we don't use HDDs anymore.
In older versions of macOS you can simply try two things:
* Press Esc in locking screen, or * Press "Sleep" from the menu bar icon and then press Esc immediately
If the machine crashes/reboots, the sensor is bad and it needs to be replaced. Apple Store replaces the whole display assembly.
15 inch and M3/M4 models are not affected, AFAIK.
I work in the automotive industry, and for volume products the price-cutting is really brutal. If you can save a cent somewhere you will, because that cent multiplied by 8 million cars a year is a sizeable amount of money.
This seems to be generally true for most OEMs of hardware products, but not for Apple. Apple could have cut costs by just using a magnet and a reed switch/hall effect sensor, because it is not using the exact angle of the screen anyway (afaik?), but they chose not to.
They could have implemented their "3d Touch" by using a simpler circuit which just indicates if the press was really hard or soft. But again they chose not too.
And they sell over 20 million Macs per year, so they really sacrifice a sizeable amount of profit
[1] https://news.ycombinator.com/item?id=44635808
Author can submit this to the AppStore.
What it says is (emphasis mine) “it’s not exposed as a public API”. In other words, Apple doesn’t provide official documentation and hooks for you to interact with the feature, like they do e.g. with Bluetooth. Even then, while they provide public APIs to interact with paired devices, interacting with the Bluetooth controller itself (e.g. turning it completely off or on) requires private APIs.
I wouldnt mind but I was 95% of the time clamshell, and still the keyboard made from butterflies wings lasted next to no time, and the battery put on too much weight after only 30 something cycles. After all these years I never understand how they produce such lemon models some years, just trying to save a few cents here and there. The one before was thermal paste nvidia meltdown.
I had thought that the MBP (an Intel one) had used magnets to detect lid closure but alas that's when I learned of the lid angle sensor and all the symptoms I was experiencing made sense. Basically the laptop would wake up when shut and the screen would stay on the entire time thus draining the battery.
Ended up getting the LAS replaced which was not DIY'able unfortunately... but was a relatively cheap fix (~$90).
https://source.android.com/docs/core/interaction/sensors/sen...
I’m curious what you do with this information. Can you share?
'Cause if not, it makes perfect sense for nostrademons to be doing it themselves.
The bigger issue is that there's always a long-tail of product considerations that need to be different on foldables and aren't covered by just feature-detecting the available screen resolution. Logging is one: PMs are very interested in how the category as a whole is performing, if only to direct future hardware plans, and that requires that it actually be categorized as a separate category. Backend requests are another: you can (and should) optimize your bandwidth usage on phones by not shipping to the client information that is only going to be displayed on large screens, and you can (and should) optimize your screen usage on large screens by displaying more information that is not available on phones, but foldables represent the union of the two, and you usually don't want the latency of additional backend requests when the user fold/unfolds the device.
(The irony is that the app in question is Google Play, and I personally know most of the PMs and several of the engineers on Android SysUI.)
Probably a nicer interface for anyone who wants to play with this :)
0: https://github.com/samhenrigold/LidAngleSensor
There was a sensor where it would detect when you slapped the side of the screen, and a guy wired it up so when you did that it shifted to the next space (virtual desktop).
I thought it was centidegrees but it turns out the sensor was reporting the raw degrees.
> Jacket zipper
> C Major scale
> Slide whistle
> Washboard
> Airlock
> Vinyl record scratch
although unless there's some sort of angle measurement with respect to the ground in the base, i'm not sure what it would be useful for. maybe to provide continuity for the depth camera when the lid angle is changing (without heavy duty estimation calculations).
https://www.novosns.com/en/hall-angle-sensor-4010
There's a fun Hackaday video using the same type of part in a rotary knob + LCD control.
https://www.youtube.com/watch?v=zIrAe23f8sg
Edit: catalog confirms.
Since covid, we no longer have assigned desks at work --- it's first come, first served. And while most are respectful of the desks we have "chosen" for ourselves, every once in a while, I'll have to sit at some other, often new desk. And that means my laptop will not recognize the monitor and that I'll have to configure it (scaling, relative position, etc).
And Windows being the mediocre OS that it is, will always select to duplicate the screens even though the logical choice is to extend. My laptop screen and the external monitor aren't even the same aspect ratio. SMH.
At least Macs have the sense to extend screens by default. Though, if I could place a Macbook on the desk, plug in the external monitor, tilt the screen back until the camera can see the monitor, the hinge sensor and cameras can work together to figure out where the monitor is relative to the laptop, and automatically determine the right settings for the monitor instead of requiring my intervention.
No ads, a timeline which isn't endless and you can actually just read. It's actually really nice! I also think the decentralized non proprietary model brings us closer to something which is becoming ever more important in this world we find ourselves in.
- isn't The Big One (defeats the point) - has a nice domain (that's your name forever) - is stable (major downtime or data loss is unacceptable these days) - is guaranteed to stick around forever (no, migration isn't solved and it will never not suck) - has rules you agree with and can guarantee you'll follow - is running the right software (no, "fedi" isn't compatible, you either run Mastodon or things will always be ever so slightly broken)
Migration is not solved, but it also doesn't suck - unless you're doing it every week nothing will break, and several people I follow have already done it and it's been just fine.
Stability is also fine - if your server is down for a couple of hours, your timeline will catch up when it comes back online, and likewise your sent posts will stay in a local outbox until they can be sent. That's absolutely no different from email or Jabber or anything else.
"Fedi" is compatible enough that I run my own GoToSocial server, which is technically still beta software, and I haven't experienced any issues following and interacting with anyone on Mastodon, Pixelfed, Pleroma and quite a few other platforms.
Would I recommend it to a non-technical user, someone who wasn't really interested in 'servers' and 'clients' and 'protocols'? Yes, although I'd suggest they just go for The Big One, as you put it. What I would say though is that this is no longer just a technology for Web nerds any longer; it's a very viable alternative to centralized platforms.
I'd love a truly decentralized model for this but fediverse isn't it, fediverse is a Hellenic League of city states where your ability to interact outside your bubble is beholden to your and their local leadership and shifting realities of protocol war jank.
If you do think my opinion is uninformed or mistaken at least know that I know many times more people who bounced off the idea for these reasons than people who actually managed to make heads or tails of this. Fwiw I don't use xitter/bsky either.
Personally I am not a fan of the Mastodon software or side of fedi, but I have had good times on the Pleroma/Akkoma side, and it all works together.
No one knew Reddit boards and 4chan boards either; you just knew to go to /b/ or /r/funny. The other boards, the other fediverse servers, are just details that enable other subcommunities to survive. The major community will just route to a single server, and most will probably never use a second
A social network with just the top 1% of the geeks would be absolutely amazing.
It's really not a useful platform for publicly sharing information anymore. Drives me nuts that government agencies use it for announcements like "Here's an amber alert with a twitter link, but you can't have any of the followup information because that's only for people who are logged in."
https://nitter.net/samhenrigold/status/1964464940049453153
I can't stand Bluesky, but I have an account on it. What the fuck is the big deal?
You simply see what the author posted and people's reactions.
It also doesn't load 400MB of JavaScript or whatever.
This is a semantic punt from nicer to accessible.
Just call it Twitter.
Why does it say it's by Lisa?
I signed up for my developer account when I was a kid, used my mom's name, and now it's stuck that way forever and I can't change it. That's life.
On iOS installed apps are locked into specific Apple ID they been downloaded with, so you might have issues with e.g WhatsApp. Still possible to download region-locked apps with non-primary AppleID, but it will sometimes ask to re-authenticate with said AppleID to keep it updated so it's cant be just throwaway.
https://support.apple.com/en-us/101661
Do not want.
Please don't fulminate or post flame bait on HN.
https://news.ycombinator.com/newsguidelines.html
In this case, someone just posted a link to BlueSky and you set off a mini-flamewar. People who act like that offline find their invitations to dinner parties start to dry up. We need people to think about the effect their comments will have on the mood in the thread when commenting here.
https://news.ycombinator.com/newsguidelines.html
Also, not everyone who disagrees with you is a fascist. That word alone is entirely useless in any good-faith rational discussion.
But yes Twitter is full of the utter scum of the Earth and no I don't want to have to block them all. Thanks, no thanks.
https://hachyderm.io/@samhenrigold/115159306734992780
Apple has a _lot_ of catching up to do.
Sometimes, just because you can do something, doesn't mean it's a good idea.
???
I don't think I've seen a laptop that doesn't have closed lid detection. At the very least it's common enough that windows has a setting specifically for it: https://www.tenforums.com/tutorials/69762-how-change-default...
It's maddening that only Apple gets this right 100% of the time, and it's among the things keeping me on Apple's platform for the moment. I can't fathom why this isn't a bigger priority for everyone else: much like "trackpads that don't suck", it's a huge quality-of-life thing which keeps tons of people on Macs because they want it to Just Work without ever thinking about it.
That's due to "connected standby"[1], which is to have laptops behave more like a phone when in sleep. This is in contrast to S3 sleep, which basically halts all activity. Sounds all good in theory, but as soon as you allow code to be run while in sleep, it's easy for some runaway app (OS or third party) to eat through your battery even while your laptop is "sleeping". Worse is that there's no way to force sleep, so your only choice is hibernate, which is even worse than S3 sleep before.
[1] https://learn.microsoft.com/en-us/windows-hardware/design/de...
There’s also wake on LAN which if enabled can rouse the machine from sleep after it’s successfully entered a sleep state.
Source: My macbook has drained its battery flat while closed in my bag dozens of times. Then it just stopped doing that on an OS update. I still have no idea why.
So anyway that killed one of my laptop's batteries. So much for supporting Internet freedoms...
Windows comes with a utility that'll tell you what process denied a sleep request, super useful.
I've actually ran into MacBooks not sleeping a few times, but it is much rarer.
It is unfortunate because back on the mid 2000s windows had the best functioning sleep code, but then they tried to catch up with iPad's # instant on and chasing perfection led to the current mess.
Much more likely is that the OS was prevented from going to sleep by some badly behaved process, or got woken up by another thing like allowing USB to wake it from sleep, where even touching the mouse can wake it - with some laptop equivalent like a ghost touchpad touch or whatever.
There's decent reasons to over-engineer some of these sensors so they can't be unduly tricked by external influences.
I've never once had a Dell/HP/Acer/Asus with a reliable lid close sensor. You can't trust those things.
Just want to warn other readers: Not all framework models have S3 sleep. I've got the 7040 AMD framework laptop and it only does s2idle.
Halting power until an external physical event seems like a simple enough idea. I have never wanted to close my laptop and let it keep number crunching.
Presumably he meant the laptop didn't go into standby when closed or woke up from standby while still closed.