Tons of the rolling key systems on the market are based on KeyLoq, and keyloq is a fairly well designed system with a big lynch pin.
It has something called a 'manufacturer key', which needs to be available to any device that allows field pairing of remotes. If that manufacturer key is known, it only takes two samples from an authenticator to determine the sequence key.
Absent the manufacturer key, jamming+replay attacks work, but brute forcing a sequence key is generally prohibitively costly.
However, since any receiver that supports field programming needs the magic "manufacturer key", one could purchase such a unit, and may be able to extract said key.
They could've designed a system that doesn't require a fixed secret master key, but instead generates a unique random key for each receiver and requires a physical connection between the fob and the receiver (located inside the locked part of the car) to pair them. Of course such a generic system would be against manufacturer's interests in controlling the repair and aftermarket industry.
As long as you have two-way wireless communication (which any keyless entry/start system does), then you can simply do a Diffie-Hellman key exchange during the pairing process.
Diffie-Hellman is designed for exactly this usecase, allowing two parties to derive a shared secret key over a public channel without exposing it.
That allows the conversation to proceed in secret from listeners, but it provides no authentication to ensure that only legitimate parties are involved. The reason for physical contact is to "prove" that you are legitimately in control of the vehicle, not a random passerby.
I'm not sure you should be that concerned about man-in-the-middle attacks.
If someone does successfully MITM while walking by the key is going to stop working as soon as they are out of range, and you will notice.
I'm just wanting a system that could be implemented with the hardware that's already there. I guess you could use the RFID chip that most keyless start cars already have as a secondary channel. Still Not 100% secure, but the MITM device would need to be physically in your car to intercept the pairing request, and at that point you have bigger problems.
Sorry, I didn't mean to make it sound like the problem was MITM. The issue is initiating a pairing request, you can't allow just any key to request it, that allows bad actors to pair a key with your car.
While I worry that it's not really secure enough, the OP was suggesting that physical contact is a way to "prove" that you are indeed eligible to pair, by excluding everyone who lacks physical contact.
Modern cars already have a complex sequence to enter pairing mode.
You need to press buttons inside the car, buttons on the currently paired key (to prove possession of that) and buttons on the key you want to pair with.
So a passer by would have to press a button on their fob at just the right moment. Then when you go to test your new key fob, it wouldn't work, so you would pair again until it was your key that was paired.
Yeah, it's the same for garage door openers today. I took the OP simply to be saying that physical access of some type needs to be available (ie. to stop anyone initiating a pairing). Some cars require the key to be physically inserted into the ignition switch, which requires the key to be correctly cut to match the car, before pairing; which is a nice extra hurdle to stop thieves quickly pairing after they break into your car.
Whatever the case, making it easier to pair, shouldn't be the primary focus, no need to help a thief doing it quickly. It would just be nice to have a way to do it, that didn't ultimately require the manufacturer to get involved; but that does remove a big hurdle for thieves, too.
It works well enough to just require some action to be taken on both ends. Push a button on the opener (or an already-paired remote), then pair the remote while the opener is in the pairing state. It’s possible for a passerby to intercept, but they’d have to have very good timing.
Pressing a button on the opener is physical contact. That's the entire idea that the OP was trying to relay, that you need some physical way to prove that you're eligible to pair. Not that the key itself had to be hard-wired for the process to proceed.
I think this is technically correct but a bit confusing, since "pairing" processes usually require user actions at both ends. A keyhole that reprograms to any key from the outside makes little sense.
Assuming it doesn't do anything else magical, I don't see much point in dignifying it with a web hit, let alone finding out its name.
It's odd to throw in the dark web, thousand dollar firmware bit when third-party firmwares are developed in the open and have long ago already implemented KeeLoq, but I guess they aim for sensationalism and shock value.
This is why keyless "start button" functions on cars is a bad idea.
The old approach of keyfob to unlock the car and a real key for the ignition is safer.
Having multiple levels of security is good.
However, having worked in the car security industry many years ago, I discovered that car manufacturers actually like it when their customer's cars are stolen - Insurance payouts often result in another sale.
As far as I know no vehicles use this kind of rolling code algorithm for push button start, only key fob functions. Certainly not in Europe (due to immobilizer regulations) but I don’t believe anywhere else either.
Generally, long range key fob button functions and the short range start release functions are separated, both intentionally for security reasons and due to the different problem space occupied by each.
It’s also worth noting that European makes in general tend to have much better cryptographic key security. My understanding is that this is due to a combination of regulation, a relationship between insurance and automakers which requires some security standard, and a high rate of theft leading to an adversarial environment.
Pretty short sighted, given how much we've seen insurance rates climb for specific makes. People know you'll be paying through the nose for certain Hyundais models. That kind of brand damage can't be cheap
Sure, but in my experience, people never attribute high insurance costs to the underlying risks being high, rather they blame that on the insurance companies and then vote for people who promise to “do something about it“.
I’m sure there is brand damage from people hearing that a particular car is frequently stolen, because having your car stolen as a pain. I am skeptical the analysis reaches deeper than this first level tho.
I don't think high insurance costs would result in brand damage as such. But it absolutely would result in reduced sales and/or reduced resale value, because sufficiently many people comparing which car to buy will look at the insurance cost for each particular car they are comparing as part of that decision.
Note those Hyundai's relied on old fashioned cut keys and not electronic transponders, and the solution was electronic transponders because the old style stuff was so trivially bypassed.
Yeah something about immobilizer on push starts being better than the key since they can just jam a USB/screwdriver in there and steal the car, Kia boys
>The old approach of keyfob to unlock the car and a real key for the ignition is safer.
"Safe" feels like wrong word to use here. Safety is not same as security.
One could also argue that criminals being able to steal parked cars is safer over all for society as they then don't feel the need to car jack you while you are actually in the vehicle.
If you actually want to keep your car secure (meaning criminals wont break into it or steal it in this context) just drive old beater and do not leave anything valuable in the car or trunk. I am driving a car that is nearly as old as I am and its fighting a losing battle against rust and I have nothing more valuable than trash inside the car.
> One could also argue that criminals being able to steal parked cars is safer over all for society as they then don't feel the need to car jack you while you are actually in the vehicle.
Here in the UK vehicle theft reached an all time low in 2014. It’s doubled since then. If there was an increase in car jacking it must have been minescule by comparison. It’s not really a crime that happens here.
I had an old beater van that got stolen. It turned out that model was known to be easy to steal. I suspect most car theft is done because it’s easy and fairly low risk. Walk up to a car in the night, fiddle around for a few minutes and drive off.
I still drive a car with a key. It’s completely fine. Who actually asked for keyless entry?
There is no reason why keyless entry cannot be more secure than a physical key, other than incompetence.
The cars stolen in New Zealand are usually, as you say, cars that are known to be easy to enter and drive away. Even then, they break a window. But I have also heard of break-ins at night targeting certain high-end cars and going as far as gaining entry to a garage.
> There is no reason why keyless entry cannot be more secure than a physical key, other than incompetence.
Isn't the problem that it's designed to work from a distance, and that by boosting the signal the criminals can just increase the distance so that the key inside your house reaches the car? It seems inherently less secure than the old system where the physical key has to be practically touching the ignition to disable the immobiliser.
> I have also heard of break-ins at night targeting certain high-end cars and going as far as gaining entry to a garage
My next door neighbour had someone enter their home while they slept, take the key and drive off in their car, because it was "stolen to order" most likely.
I couldn't give a shit if someone breaks in to my garage, or frankly if the car is stolen, but I don't want them coming into my house where my family is asleep for the keys.
What happens if the keys weren't downstairs by the front door, because I left them on the bedside table or something?
I'm not sure what you are saying here. Are you saying cars should be easier to steal so that no one ever breaks into your house to access the keys to your car?
Hi! It me. I had a car with keyless entry years ago. It was great. I got another car, more recently, that had a physical key. I've hated having to use the physical key. I personally am asking for keyless entry. Sorry!
Also: Hyundai/Kia cars have physical keys and are known to be trivially hot-wired. Given the "kia boyz" I'd have a hard time moving to physical keys again. Again, sorry!
One could also argue that most people didn't bother because violent crimes are much more severely punished, now that the bar is so low people steal much more. And the stats would back it up
Old beaters are exactly the things that get stolen. Their security can often be beaten with a butter knife or coat hanger. That's more about minimizing the losses, for which it's a useful approach. Running costs tend to be lower as there's little purchase price and no incentive to do expensive repairs instead of dumping a broken one for another running beater.
If someone wants to stole the car they will steal it.
Stealing a car is not the same as stealing a candy. In Europe all parts are marked so it takes significant effort to sell or modify such cars. It's not like people steal them and then sell it at yard sales.
As for the "beaters": shortly after Russian invasion on Ukraine plenty of cars were stolen in Poland. Not the expensive kind but usually 10-30 years old cars with big and reliable engines (V6, V8). I know 6 people that had Jeeps Grand Cherokee stolen (different generations).
My uncle wanted to renovate Isuzu Rodeo with completely rusty frame but V6 engine of a value of like 300€ and it was stolen too.
Strong disagree. Many car thefts are by POS teenagers who do it because it's easy and they can get away with it. They then proceed to drive those cars recklessly, endangering the lives of other people, or worse, use the sense of anonymity and power provided by the stolen car to commit violent crimes.
As a DIY option, there are definitely ways you could add MFA-like security with a simple switch/relay (attached to said authentication factor) in most ignition systems.
However, that wouldn't help with the "desyncing" or unlocking aspects of this attack.
I had a used VW gti (late last century) with an imobilizer. It let the engine crank but wouldn’t start. It also locked the hood from opening, leading to some panic when first getting the car and forgetting it had this feature.
I'm currently driving a rental which has this feature and I can't stand it. There is no added value and this feature exists solely to appeal to people who think it's "cool". (They must exist, right?) I guess you get used to it with time but I find myself constantly having to throw the key back into the car so I can do things like exit momentarily and keep the air conditioning going. I also don't trust that the car won't then lock itself with the key and my child inside, so I also have to remember to roll down the window.
Unwarranted worries. I keep the fob in my pocket all the time, the car will keep running without the fob. Also usually these systems have incar fob detection. Mine will refuse to lock if it senses the fob is inside the car.
It won't let you press the button on the handle to lock it if the key is inside and you're not, prevents you from locking the keys in the car, mine does the same, the car will beep 3 times if I try to lock it from outside while the key is inside.
If you're also inside, you just press the lock button in the car and it'll lock just fine.
It’s convenient. If I want to keep the AC on when I exit, I push the button for that before I get out.
It’s especially nice when the key is my phone. I never have to worry about keys. I just get in my car and drive, and when I arrive I get out. I keep a key card in my wallet as a backup in case my phone explodes.
There's a huge value feature, I can keep the "key" in my pocket or bag or whatever and I don't have to fetch it out. Plus the "key" can be a phone or other device.
Adding in a stick of metal that can be trivially bypassed does nothing to make the car more secure.
Automotive ignitions barring a few stupid setups in the 90s like the Jeep XJ (which was laughably easy to steal, but it was Chrysler and AMC so you can just expect certain levels of incompetence and shit design) have been much more than just a simple cut key. Going back to even the 80s, GM had a mostly excellent simple theft deterrent in the keys (a special resistor whose value the ECM knew, called passkeys) that made it harder than just brute forcing the ignition cylinder. It honestly made stealing someone's thirdgen or corvette a lot harder. Keys with things like fobs have evolved since and on a car with a real key made since the vast majority of this sites userbase was probably born is going to take some real specific smarts and work if you need both a physical key and whatever additional security the manufacturer has cooked into the fob. You really need an immobilizer system that requires both a transponder and a correct cut key for the security on the car to be decent.
> Adding in a stick of metal that can be trivially bypassed does nothing to make the car more secure.
Everyone can use a flipper zero to unlock a car. Not everyone can hotwire a car. Keyless ignition means criminals have a vastly larger recruitment pool of people they can offer money to do something stupid (like stealing a car for them).
I've never seen anything but problems with keyless ignitions. It really seems like a solution in search of a problem no one actually had, and makes the car much more irritating. I guess it's in line with the whole remove real controls and buttons crap because "muh software", "muh reprogrammable interfaces" etc that certain nerds think is a good idea for who knows what reason.
disagree, if you mean simple cut key. a screwdriver defeats it.
ok, if you mean a key that has a chip embedded, where the key cuts are just window dressing and the real magic is still in cryptographic proof of "something you have". i am not aware of any such key ever being produced, but i certainly do not have comprehensive knowledge. GM had something close to that.
Immobilizers (which lock out the engine until there's been some authorization from another device, i.e. from a chip in the key) have been mandatory in cars in the UK at least (and I would presume Europe on similar time scales) for almost 30 years (from 1998). Seems they've been sold in cars for a few years longer than that (from 1992). According to: https://www.carwow.co.uk/guides/glossary/what-is-a-car-immob....
Maybe never introduced into the US market? Would find that hard to believe.
I’m pretty sure most cars in the later key era used some sort of chip verification on ignition for the key. It wasn’t just a physical thing. Given it was 15 years ago, I don’t know how cryptographic the proof was - perhaps it was just reading a number from the key. But the hyper short range nature of it made it quite secure.
Unfortunately that video is lots of talking and little substance, so it's hard to properly evaluate it. From the little info shown there it just looks like a nice repackaging of the old rolling flaws (https://github.com/jamisonderek/flipper-zero-tutorials/tree/...)
I sometimes imagine how much of this could be avoided if the communication signals weren't (a) broadcast or (b) a imperceptible to humans.
If it an electrical contact in the door handle, it would be very difficult for anyone to monitor or inject other signals.
If the signals were audible sound, you'd know when someone was jamming it.
In practice, my number one use of a fob from a remote distance is locking, rather than unlocking, and those two operations don't have the equivalent security risk.
>If the signals were audible sound, you'd know when someone was jamming it.
This would be very popular in East Asia. They love everything that beeps. Rice cookers play a melody, pedestrian crossings play a melody, garbage trucks play a melody. Japan is the country of beeps.
> In practice, my number one use of a fob from a remote distance is locking, rather than unlocking, and those two operations don't have the equivalent security risk.
Wouldn't the risk be the same if the same rolling code keys was used for both locking and unlocking?
I would be surprised if automotive manufacturers used separate rolling code keys for locking and unlocking.
> Wouldn't the risk be the same if the same rolling code keys was used for both locking and unlocking?
Yes, what I meant is that such symmetry is not strictly required, and breaking the symmetry opens up ways to enhance security (of unlocking when you arrive) while keeping most of the convenience (of locking while leaving.)
For example, imagine "Lock" is a typical broadcast from anywhere within X meters, but "Unlock" requires touching the fob to an infrared port, and they use independent codes.
Peugeot used to have infrared keys. Several people who thought their central locking was glitchy have been surprised to learn that pointing the key at the side window makes it work every time.
> For this new attack to work, all that is needed is a single button-press capture from the keyfob, without any jamming. Just from that single capture, it is able to emulate all the keyfob's functions, including lock, unlock, and unlock trunk.
If I don't press the buttons on my keyfob am I safe from this?
The only keyfob functionality I normally use is that when it is outside the car but within about a meter of the door handle the door can be locked or unlocked by pressing a button on the door handle.
If you keep your car key close enough to your front door, it's possible to relay the signal that the key is constantly broadcasting closer to the car, allowing an attacker to hit the button on the handle and unlock it without posesssing the key.
As I understand there's still challenge/response stuff going on when you use a physical key or similar means to unlock the car or start the ignition (as that is how the alarm system and immobiliser distinguish a real key from someone picking the lock or hotwiring the car).
I don't know the details of the attack in the article, but my speculation would be that it would be vulnerable.
Depends on the implementation. Most times you just have to click it a few times in a row. The receiver then realizes it missed a few button presses and it re-syncs. I’m not sure what that window is though, at some point it might get so out of sync that the receiver ignores it and assumes it is a wrong fob.
If I remember correctly the size of the rolling window differs, more modern vehicles may allow about 100 code discrepancy before ignoring the transmitter, while old models might have been 5 to 10.
If the attack causes the original key to no longer work, imo the major threat vector is someone sitting in a parking lot, capturing key presses, performing the attack, and forcing the user to tow+re-program the key as a nuisance, rather than stealing the vehicle
On what car do you _need_ the remote to enter and drive the car (having tow the only alternative to e.g. the remote battery dying)? In all cars I have used, you could just use the physical key if the remote failed.
My wife certainly doesn't know how to unlock and start the car without the "keyless" function. Every time the fob runs out of battery, she needs step by step instructions otherwise she's stuck there. She uses and sometimes programs SQL and API calls at work, but knows next to nothing about cars.
Even more nefarious is preventing the victim from using their vehicle as a refuge or escape from a dangerous situation such as an attempted murder or kidnapping.
For the past 20 or 30 years, my insurer made car theft insurance conditional on having an immobilizer device installed that requires code entry through a physical keyboard.
And there were a few years this seemed onerous, but most of the time, there were popular attack in use by car thieves that were prevented (or at least made much longer and more complicated) by this.
I guess this attack is against the keeloq protocol. There are no known total breakage of this kind AFAIK, against the cryptography implemented in the chip. This will be interesting to understand, I mean: what they are exactly doing here.
You jest but there's no reason to stick with twenty year old component restrictions in a car that costs forty grand.
The real cost will be in the software validation and road safety hardening, but there's no reason why the ROM size should be limited to kilobytes.
You can implement full passkey cryptography on a basic esp32 (https://github.com/polhenarejos/pico-fido). Cut out the cruft and you can definitely get a similarly secure algorithm on an actual car key or key receiver.
And honestly, with cars now unlocking over Bluetooth and WiFi, standardising that process to something like FIDO wouldn't even be that awful of an idea. It certainly beats the "we can do cryptography at home" many car manufacturers seem to be going for.
ESP32 won't work 5 years from cell battery. My Dacia key does. Embedded hardware is limited not just because someone wants to save bytes, but because someone wants to save joules (and PCB size).
Kind of insane that this works... Surely whoever implemented this knew it was insecure? I honestly wouldn't have thought to check for this vulnerability because... who would do that??
I don't think the word "secure" was ever part of the discussion on keyless entry for cars. They would have used something like "convenience". Secure would maybe be considered in that the car doors are now locked from the keyless. But as far as "secure" being used in regards to the transmission/receiving of the wireless signal? I doubt if it was ever mentioned by anyone other than PR.
It definitely was because they used to not even use rolling codes. Rolling codes were specifically created to prevent replay attacks, and then they somehow thought "oh but if you replay two keys we'll accept them". Insane. They must have just hoped nobody would even think to try that because it's so ludicrous.
Car manufacturers are like automation/control manufacturers; they existed before cybersecurity and never caught up to the pace. If you ever audited any SCADA system, you will see nightmares. For cars, some new models of popular brands (not specifying any), you can access the CANbus from the headlight where you can reprogram the ECM to your new key. It's that simple to "own" a modern car.
Currently sitting in a control room at a greenfield manufacturing facility trying to describe why even VLANning the control network would be a good idea to some controls engineers who want a plant-wide subnet for all PLCs that will be remotely supported by 6 different vendors. The struggle is real
On the other hand, it's been a great excuse for a hobby project with 12V relays and learning how to write code for an ESP32. :P
I still haven't yet figured out which CAN-bus to tap and which undocumented byte-messages to interpret... but entering the Konami Code on the steering wheel to unlock the ignition is quite plausible. Or an NFC/RFID tag over a hidden reader, or an active bluetooth connection to my phone, etc.
Whatever the case, quite enough to stop the average thief that would target a cheaper vehicle like my own. You could also skip the ESP32, and have a purely analog switch tucked away.
Needing two keys for a third one is not new. My 25 year old car needs two keys for adding the third, old Fiats has “red master” keys which are also required during adding keys.
Honda/Acura/Toyota have used similar systems for years; this is one of the reasons why cloning a key costs less flagged hours than making a new one for an owner that lost all of them : when you lose all of them you need to get the actual computer out and pair it with the ecm directly, when you clone them there is a ritual that can be done with the other keys+ the new one.
That's common, and it's often a bit stricter. E.g. my Ford Lightning has a pocket you have to put the fob into for this kind of activity. For certain things you need both fobs, so you do one, and then the other, as part of a sequence in the programming. Just being in range isn't good enough.
Proper security is a total pain in the ass, and makes things nigh impossible to use in the manner people want to use them. This naturally makes things more expensive to recover from oopsies.
This is why YubiKeys will only ever work for people technical enough to understand them. Normies will loose it at the first chance, and then be locked out of everything. At that point, YubiKeys will be banned by Congress from all of the people writing in demanding something be done about their own inabilities to not be an ID10T
As far as car security is affected, "normies" really don't care what the algorithm is. The entire UX is "press button to open car, go to dealership if you need new key" and it allows a wide variety of choices re algorithms.
The only reason they use KeeLoq (with whopping 32 bits of security!) instead of something normal, like I dunno, AES-128 or something, is because they are trying to save $0.50 in parts on the item they sell for $100. Oh, and because they don't like any change and don't have organizational ability to use anything recent, like other poster says.
> The entire UX is "press button to open car, go to dealership if you need new key"
Ironically proper security in this case would likely improve the user experience as well. The car provides a 64 bit (or larger) secret value and you manually program a standardized fob with it. No need for custom parts that are only available from the dealer.
A terrible "feature", since it means someone can steal your car just by relaying the signal from outside your home at night, or an accomplice walking near you as you're entering the grocery store, etc.
I've become a big believer in leveraging some security features of the physical world, as it seems it's been long enough that everyone's forgetting Therac-25-style problems. (Or, perhaps more accurately, nobody cares because they aren't liable.)
Modern keyfobs actually detect motion and if they are motionless for a while, they stop transmitting the signal to both save battery and prevent such attacks.
For old keyfobs, you can get a battery sleeve with integrated motion sensor which does the same (cuts power when fob is not in motion for a while).
Alternatively, some cars let you disable the feature and just use the keyfob as you would use an older one - then you habe to push the button anytime you want to unlock the car.
It really depends on the way biometrics are implemented. If you're doing it Apple style, where a dedicated chip validates biometrics and uses encryption and signatures to prove to the OS that the user is who the say they are, they're as good and trustworthy as the software you're running on them (which in the case of macOS for instance requires full trust).
If you're doing the "fingerprints implemented as a webcam" or software based facial recognition from a shitty webcam, you're risking quick and easy bypasses. Still good enough for a computer you leave at home (as long as you don't need to protect yourself against shady law enforcement) but definitely not that secure.
From what I've been able to gather online, nobody but Apple and phone manufactures seem to care much about actually doing biometrics securely, including the biometrics hardware companies. It's such a shame because it's definitely possible to do better.
You can ask this question about almost every non-software company. Hell, you can ask this question about most software companies.
The real question is "why are most people and companies incapable of using cryptography properly?"; and the answer is that doing cryptography right is hard, especially if your use case isn't a common one.
To some degree customers love it. It allows you to program your own replacement key without having to go through the manufacturer or an official dealer.
When my favorite quadruped knocked my keys into the trash I had to get my car towed to the dealer for them to program me a new key. One one hand, top notch security as it was impossible to do any other way. On the other hand the total to get this done was something like $500 after everything.
I did this to myself by placing my keys in a pocket of a bag that I've never used before when returning to the airport parking. I found the keys in the bag after paying to have it re-keyed after paying for the tow from the airport to the closest dealer.
This is totally something I'd do. I'm very organized when I travel for work and everything has a place. If I absentmindedly slip something into the wrong part of my bag, it might as well be invisible..
Get a bluetooth tracker (Apple Air Tag, Samsung Smart Tag or the generic Google Find My compatible one for other Android devices), set it up with your phone and attach it to your car keys.
Then anytime you misplace your keys, you can look at a map on your phone and it will show you where to go.
Yeah, big +1 on this tip. I have AirTags on my bags themselves as well as some other things. Don't have them on my key fob, but you may have inspired me to attach one haha.
The map thing when you're nearby and it goes into the sonar-like mode is super cool. Especially combined with the ping noise.
The attacks to rolling code keys are well known but these keys continue to exist. They allow you to pair a key yourself to the car that you buy online. Particularly in the US it's quite common that people buy used cars and then another key online that they pair themselves.
You won't be able to do this for instance with VAG cars that have KESSY. First of all the immobilizer is paired to the key, secondly the only way to pair a new key to it is via the manufacturer or a licensed dealership because you need a blob from their central server. But the consequence is that people feel like they are being fleeced when they need another key, because it can cost you hundreds of dollars to pair one.
In general these types of attacks are much harder in Europe where immobilizers have a legal minimum standard that manufacturers have to meet. On the other hand in the US immobilizer are entirely optional, which has famously led to KIA and Hyundai cars shipping without them and the Kia Boys TikTok phenomenon.
> But the consequence is that people feel like they are being fleeced when they need another key, because it can cost you hundreds of dollars to pair one.
Because the ARE being fleeced. It's an artificial dependency on the vendor on the one hand versus a blatantly insecure approach on the other.
Secure pairing that can be done by the end user isn't rocket science.
It is a bit rocket science because cars stand around. The CAN bus can even be externally accessed if you pop open the right part of the car (common fault are adaptive headlights). It is not as trivial as people make it out to be because cars violate one of the most important principles of having good security: no physical access.
1. Initiate pairing via the entertainment system interface.
2. Use rolling codes. Don't allow rewinding the codes.
3. Add a tiny tiny bit of non-volatile memory in the keys so that batteries can be changed without breaking the key. This is only necessary if the car can't be entered using the physical key, otherwise the user can just open the car with the physical key, turn on the ignition and re-pair the key.
I could make a secure system to do this and I'm no crypto genius. (Note this would still be vulnerable to rolljam but that's not a very practical attack, and defeating that is a bit difficult.)
To support car hire/share places if they want to prevent users pairing new keys you could allow setting a password on the pairing interface.
That has nothing to do with secure pairing. It's an entirely orthogonal concern. Any sensitive system on a vehicle is going to be subject to the same thing.
I don't think anyone will be surprised if the security is swiss cheese once you pop the hood open or bust a headlight out. Keep in mind that a brick to the window and tearing up the center console will get you physical access to the head unit on most vehicles.
Cryptography is actually difficult for the requirements of a key fob.
The principle issue is that requiring two way communication greatly increases hardware cost and lowers range/reliability. You also would prefer to minimize or eliminate any volitile storage on the devices.
Also you very much want to absolutely minimize the data sent, both for battery life and range/reliability reasons.
And whatever volatile storage the devices have you need to have some way of handling it being reset when its lost due to a dead battery or replaced device.
So standard replay resistant protocols like "door sends a random challenge, fob signs/decrypts/encrypts it and sends the result" are excluded due to the two-way requirement.
The next obvious set is along the lines of "device sends an encrypted counter, door enforces that the counter only goes up" requires nonvol storage in both devices, and then gets tripped up when the fobs counter goes back down due to being reset. (also harder to implement multiple fobs, as they each need unique state).
Agree about the requirements but disagree that it's difficult.
Two way communication and a few KiB of nonvolatile storage on the fob shouldn't be a deal breaker when an ESP32 dev board runs under $10 (an ESP32 being massive overkill for the described use case).
The device sending an encrypted counter is also trivially easy. There's no reason a modern vehicle can't store hundreds (or thousands, or tens of thousands ...) of { u64 fob_id, u64 fob_key, u64 fob_counter } triplets. Push it up to 128 bits if you're paranoid, it won't have a meaningful impact on resource usage.
Case in point regarding the car storing state, the (broken) rolling window algorithm they use requires that the car track the window and accept presses that are out of sync by a decently wide margin. That's likely more complicated and resource intensive than simply enforcing that the nonce only ever goes up.
The rational conclusion is that the manufacturers are either incompetent or malicious. I firmly conclude the latter given that the fobs they offer that are actually secure introduce vendor lock in and a charge to replace a key.
> Cryptography is actually difficult for the requirements of a key fob.
No, it's not.
> The next obvious set is along the lines of "device sends an encrypted counter, door enforces that the counter only goes up"
That's already how rolling codes work. Running a strong crypto algorithm (even Ascon/Speck would be fine here) requires negligible power.
The issue is that this system is still susceptible to jam+replay attack. An attacker can jam the transmitter signal, while recording it at the same time. The user assumes that the button press just didn't register and tries again. The attacker also jams this and records the code. But then the attacker replays the _previous_ code that they stored, keeping the latest code for their future use.
This can _also_ be fixed with a simple capacitor-powered timer circuitry, charged during the keypress. The device can stay completely inert at all other times.
They're not. There is AFAIK an ssh key infrastructure for OnStar that's modern and well-run, for example.
Things like key fobs are most likely very incremental changes on "this is the way we've always done it". These organizations are behemoths and steer with all of the inertia of a containership.
Like when just putting in a usb-A anything into the steering column and letting the car drive away? Nah man, no one will figure it out. We're good. Our backdoors are the best
Cool, I was planning to get a spare car key, not anymore!
Also, glad I have one before they would ban it. It’s a neat tool that I have everything I want there, instead of having 4 fobs, one garage remote, plenty of IR remotes, it’s AIO. Plus I don’t have to pay fees to replace my lost fobs
Am I the only one that just hates push to start in every way? Sure, I don't need to have the "insert key and crank" to be real, but physical key seems so superior.
Feels like getting rid of the light switches in your house in favor of "smart home" stuff.
I liked my old 'rolla that I could start with any key at all.. or even a paddlepop stick.
Every time I start thinking about these little modern inconveniences, I re-arrive at the idea that this is yet another example of the difference between a product and a tool.
A product ideally works the same for everyone, with as little friction to the immediate function as possible. All other functions are hidden or deleted. Trying to use a product as a tool is slow and frustrating, because the experience never gets better than the first time you use it.
A tool on the other hand needs learning. Sometimes that learning curve is shallow and long, like a hammer, or steep and long like CAD.
Smart home stuff can be pretty great if you treat it like a tool, and only use it where it is the right tool for the job (so, not light switches).
I mean, keep using your key if you like it. I for one love never having to touch my car keys. I touch my door handle the car unlocks, I touch the start button the car starts.
I'm on the other of the spectrum apparently, I'm annoyed that I even have to carry a key/fob. I'd rather have a fingerprint sensor or something, with the key as a backup (i.e. when I let some borrow it).
Also, smart people wire their smart home so that the light switches still work. If a smart home controller or some other part of the system fails, people still want to be able to control the lights manually.
AirTags require people having iphones. Tile requires people with the app. I've lost things with both these items on them and never saw a ping from them ever again.
Well, yeah, there are limitations to everything. They're not going to work on stolen devices when they're overtly advertised in cutesy keyfob holders that say "throw me away first". Use your brain because you have to disguise
them on some objects.
AirTags and Tile Pro work fine wherever there are other people. They're not going to work in the Atacama.
They worked fine every time I used them. I recently sent a laptop to France and included one of each. Sometimes the Tile pinged and sometimes the AirTag pinged, but they worked really well across continents.
I also have about 4 of each in a vehicle left unattended for a while in a parking garage that doesn't have a great deal of people around it. And all of them ping at least once a day. The Tile Pros have ~100m LoS range which are quite a bit more than previous ones from years ago.
I dropped one on a keychain on a sidewalk. It never pinged. That was an AirTag.
The other was the time I left my car keys on top of my car. Someone took the keys and put them in a random nearby business’s lost and found. The tile never pinged over the course of days and I had to find it the old fashioned way.
These things never worked for me, but it’s good to know that mail delivery people use these apps/devices that will let you track your packages in realtime.
I didn't realize I dropped AirPod Pros in a case with an AirTag. I watched them bounce around inside an unoccupied Google building like it was picked up by Google's security people. Then, I watched it commute to a residential area of a smaller town. The defunded local police wouldn't even possibly look into it until 48 hours later and only if they wanted to, and the smaller town police wouldn't do anything. It pinged for a day or two afterwards like someone had thrown it into a/their neighbor's trash can.
What practical use does this have? From my reading if I capture an unlock signal, the car will not unlock for the owner, so they’ll press their remote a few times.
If I capture a lock signal, presumably I can instead prevent it from locking. The only real world malicious action I can see is being viable is to block the car lock, meaning the car is still in an unlocked state, open the boot (which I’m guessing can be done from the car dash anyway) then locking it afterwards?
Tons of the rolling key systems on the market are based on KeyLoq, and keyloq is a fairly well designed system with a big lynch pin.
It has something called a 'manufacturer key', which needs to be available to any device that allows field pairing of remotes. If that manufacturer key is known, it only takes two samples from an authenticator to determine the sequence key.
Absent the manufacturer key, jamming+replay attacks work, but brute forcing a sequence key is generally prohibitively costly.
However, since any receiver that supports field programming needs the magic "manufacturer key", one could purchase such a unit, and may be able to extract said key.
They could've designed a system that doesn't require a fixed secret master key, but instead generates a unique random key for each receiver and requires a physical connection between the fob and the receiver (located inside the locked part of the car) to pair them. Of course such a generic system would be against manufacturer's interests in controlling the repair and aftermarket industry.
You don't even need a physical connection.
As long as you have two-way wireless communication (which any keyless entry/start system does), then you can simply do a Diffie-Hellman key exchange during the pairing process.
Diffie-Hellman is designed for exactly this usecase, allowing two parties to derive a shared secret key over a public channel without exposing it.
That allows the conversation to proceed in secret from listeners, but it provides no authentication to ensure that only legitimate parties are involved. The reason for physical contact is to "prove" that you are legitimately in control of the vehicle, not a random passerby.
I'm not sure you should be that concerned about man-in-the-middle attacks.
If someone does successfully MITM while walking by the key is going to stop working as soon as they are out of range, and you will notice.
I'm just wanting a system that could be implemented with the hardware that's already there. I guess you could use the RFID chip that most keyless start cars already have as a secondary channel. Still Not 100% secure, but the MITM device would need to be physically in your car to intercept the pairing request, and at that point you have bigger problems.
Sorry, I didn't mean to make it sound like the problem was MITM. The issue is initiating a pairing request, you can't allow just any key to request it, that allows bad actors to pair a key with your car.
While I worry that it's not really secure enough, the OP was suggesting that physical contact is a way to "prove" that you are indeed eligible to pair, by excluding everyone who lacks physical contact.
Modern cars already have a complex sequence to enter pairing mode.
You need to press buttons inside the car, buttons on the currently paired key (to prove possession of that) and buttons on the key you want to pair with.
So a passer by would have to press a button on their fob at just the right moment. Then when you go to test your new key fob, it wouldn't work, so you would pair again until it was your key that was paired.
Which can be easily bypassed by accessing any obd2 connected port, which you can conveniently find in the headlight housing of most automobiles.
Yeah, it's the same for garage door openers today. I took the OP simply to be saying that physical access of some type needs to be available (ie. to stop anyone initiating a pairing). Some cars require the key to be physically inserted into the ignition switch, which requires the key to be correctly cut to match the car, before pairing; which is a nice extra hurdle to stop thieves quickly pairing after they break into your car.
Whatever the case, making it easier to pair, shouldn't be the primary focus, no need to help a thief doing it quickly. It would just be nice to have a way to do it, that didn't ultimately require the manufacturer to get involved; but that does remove a big hurdle for thieves, too.
you can press a button in the car, you don't need a cable.
It works well enough to just require some action to be taken on both ends. Push a button on the opener (or an already-paired remote), then pair the remote while the opener is in the pairing state. It’s possible for a passerby to intercept, but they’d have to have very good timing.
Pressing a button on the opener is physical contact. That's the entire idea that the OP was trying to relay, that you need some physical way to prove that you're eligible to pair. Not that the key itself had to be hard-wired for the process to proceed.
> requires a physical connection between the fob and the receiver (located inside the locked part of the car) to
that sounds pretty clear to me that the connection isn't the human holding both buttons here.
I think this is technically correct but a bit confusing, since "pairing" processes usually require user actions at both ends. A keyhole that reprograms to any key from the outside makes little sense.
A PAKE scheme with a passcode communicated out of band during pairing feels more appropriate to make sure no one is snooping.
A one-time out of band authentication (usually some form of trusted physical interaction) is key if you don’t want to trust intermediaries.
Correct. While the original KeeLog cipher is most likely no longer secure, Microchip moved on to AES.
KeeLoq is also used for garage door openers.
Some KeeLoq receivers have a "learning mode" where it adds the next KeeLoq transmitter it hears provided it uses the same manufacturer key.
Learn mode is activated either with a button often on the PCB or with a "master" transmitter.
https://en.wikipedia.org/wiki/KeeLoq
Why is it "dark web" nothing is wrong about posting it online, using it in general may be USC 18 1029/30 in USA but
Why is there so much politicatization and bait click of dark web stuff, it's still internet.
Because the original hacker is selling the firmware for 1000 USD on dark web marketplaces.
It's literally being sold on dark web. People call everything "dark web" but this time it's correct.
So what's the search term for it at least? This stupid gatekeeping while racking views and hype from it is getting on my nerves.
Assuming it doesn't do anything else magical, I don't see much point in dignifying it with a web hit, let alone finding out its name.
It's odd to throw in the dark web, thousand dollar firmware bit when third-party firmwares are developed in the open and have long ago already implemented KeeLoq, but I guess they aim for sensationalism and shock value.
I'd guess that the original firmware author posted in on some hidden onion forum (aka darkweb), because they are actually stealing from cars.
I doubt it, most flipper dev is done on the discord that offer unspectrum/noncertified radio manipulation like iceman, etc.
Sound like it’s newspeak for repurposing the word “internet” to a UK or China style of regulated censorship
This is why keyless "start button" functions on cars is a bad idea.
The old approach of keyfob to unlock the car and a real key for the ignition is safer.
Having multiple levels of security is good.
However, having worked in the car security industry many years ago, I discovered that car manufacturers actually like it when their customer's cars are stolen - Insurance payouts often result in another sale.
As far as I know no vehicles use this kind of rolling code algorithm for push button start, only key fob functions. Certainly not in Europe (due to immobilizer regulations) but I don’t believe anywhere else either.
Generally, long range key fob button functions and the short range start release functions are separated, both intentionally for security reasons and due to the different problem space occupied by each.
It’s also worth noting that European makes in general tend to have much better cryptographic key security. My understanding is that this is due to a combination of regulation, a relationship between insurance and automakers which requires some security standard, and a high rate of theft leading to an adversarial environment.
Pretty short sighted, given how much we've seen insurance rates climb for specific makes. People know you'll be paying through the nose for certain Hyundais models. That kind of brand damage can't be cheap
Sure, but in my experience, people never attribute high insurance costs to the underlying risks being high, rather they blame that on the insurance companies and then vote for people who promise to “do something about it“.
I’m sure there is brand damage from people hearing that a particular car is frequently stolen, because having your car stolen as a pain. I am skeptical the analysis reaches deeper than this first level tho.
I don't think high insurance costs would result in brand damage as such. But it absolutely would result in reduced sales and/or reduced resale value, because sufficiently many people comparing which car to buy will look at the insurance cost for each particular car they are comparing as part of that decision.
Note those Hyundai's relied on old fashioned cut keys and not electronic transponders, and the solution was electronic transponders because the old style stuff was so trivially bypassed.
Yeah something about immobilizer on push starts being better than the key since they can just jam a USB/screwdriver in there and steal the car, Kia boys
I know this might be splitting hairs, but...
>The old approach of keyfob to unlock the car and a real key for the ignition is safer.
"Safe" feels like wrong word to use here. Safety is not same as security.
One could also argue that criminals being able to steal parked cars is safer over all for society as they then don't feel the need to car jack you while you are actually in the vehicle.
If you actually want to keep your car secure (meaning criminals wont break into it or steal it in this context) just drive old beater and do not leave anything valuable in the car or trunk. I am driving a car that is nearly as old as I am and its fighting a losing battle against rust and I have nothing more valuable than trash inside the car.
> One could also argue that criminals being able to steal parked cars is safer over all for society as they then don't feel the need to car jack you while you are actually in the vehicle.
Here in the UK vehicle theft reached an all time low in 2014. It’s doubled since then. If there was an increase in car jacking it must have been minescule by comparison. It’s not really a crime that happens here.
I had an old beater van that got stolen. It turned out that model was known to be easy to steal. I suspect most car theft is done because it’s easy and fairly low risk. Walk up to a car in the night, fiddle around for a few minutes and drive off.
I still drive a car with a key. It’s completely fine. Who actually asked for keyless entry?
> Who actually asked for keyless entry?
Probably the vast majority of consumers?
There is no reason why keyless entry cannot be more secure than a physical key, other than incompetence.
The cars stolen in New Zealand are usually, as you say, cars that are known to be easy to enter and drive away. Even then, they break a window. But I have also heard of break-ins at night targeting certain high-end cars and going as far as gaining entry to a garage.
> There is no reason why keyless entry cannot be more secure than a physical key, other than incompetence.
Isn't the problem that it's designed to work from a distance, and that by boosting the signal the criminals can just increase the distance so that the key inside your house reaches the car? It seems inherently less secure than the old system where the physical key has to be practically touching the ignition to disable the immobiliser.
> I have also heard of break-ins at night targeting certain high-end cars and going as far as gaining entry to a garage
My next door neighbour had someone enter their home while they slept, take the key and drive off in their car, because it was "stolen to order" most likely.
I couldn't give a shit if someone breaks in to my garage, or frankly if the car is stolen, but I don't want them coming into my house where my family is asleep for the keys.
What happens if the keys weren't downstairs by the front door, because I left them on the bedside table or something?
I shudder at the thought.
I'm not sure what you are saying here. Are you saying cars should be easier to steal so that no one ever breaks into your house to access the keys to your car?
>> Who actually asked for keyless entry?
Almost everyone?
It's one of the best feature I have in a car, the most convenient one.
It's a feature we like now that we have it, but not one we asked for.
Hi! It me. I had a car with keyless entry years ago. It was great. I got another car, more recently, that had a physical key. I've hated having to use the physical key. I personally am asking for keyless entry. Sorry!
Also: Hyundai/Kia cars have physical keys and are known to be trivially hot-wired. Given the "kia boyz" I'd have a hard time moving to physical keys again. Again, sorry!
> One could also argue that
One could also argue that most people didn't bother because violent crimes are much more severely punished, now that the bar is so low people steal much more. And the stats would back it up
https://images.vivintcdn.com/global/Blog%202022/01-Number-of...
Old beaters are exactly the things that get stolen. Their security can often be beaten with a butter knife or coat hanger. That's more about minimizing the losses, for which it's a useful approach. Running costs tend to be lower as there's little purchase price and no incentive to do expensive repairs instead of dumping a broken one for another running beater.
If someone wants to stole the car they will steal it.
Stealing a car is not the same as stealing a candy. In Europe all parts are marked so it takes significant effort to sell or modify such cars. It's not like people steal them and then sell it at yard sales.
As for the "beaters": shortly after Russian invasion on Ukraine plenty of cars were stolen in Poland. Not the expensive kind but usually 10-30 years old cars with big and reliable engines (V6, V8). I know 6 people that had Jeeps Grand Cherokee stolen (different generations).
My uncle wanted to renovate Isuzu Rodeo with completely rusty frame but V6 engine of a value of like 300€ and it was stolen too.
And it happened ~1 month after it started.
People stealing cars to sell or chop them up for profit is less of a problem than people stealing cars so they can commit violent crimes with them.
Based on what data?
Strong disagree. Many car thefts are by POS teenagers who do it because it's easy and they can get away with it. They then proceed to drive those cars recklessly, endangering the lives of other people, or worse, use the sense of anonymity and power provided by the stolen car to commit violent crimes.
https://www.krqe.com/news/crime/teen-given-max-sentence-afte...
> car manufacturers actually like it when their customer's cars are stolen
Hyundai and Kia have joined the chat
Except those guys had it go so far that trying to insure a cheap Kia was extremely expensive, since insurers considered them a toxic asset.
As a DIY option, there are definitely ways you could add MFA-like security with a simple switch/relay (attached to said authentication factor) in most ignition systems.
However, that wouldn't help with the "desyncing" or unlocking aspects of this attack.
I had a used VW gti (late last century) with an imobilizer. It let the engine crank but wouldn’t start. It also locked the hood from opening, leading to some panic when first getting the car and forgetting it had this feature.
It was a circular key below the steering wheel.
A physical steering wheel lock works too.
Not every problem needs a tech solution.
They're basically describing a hidden kill switch/toggle, which is just as much of a tech solution as the one you're describing.
Of course, they wrapped it in some nerdy terminology, which IMO obscures the intent of their suggestion.
Removable steering wheel. Most thieves do not carry a steering wheel with them.
Rowan Atkinson approves.
https://youtube.com/watch?v=yns_DhYrOpY&t=19m30s
I'm currently driving a rental which has this feature and I can't stand it. There is no added value and this feature exists solely to appeal to people who think it's "cool". (They must exist, right?) I guess you get used to it with time but I find myself constantly having to throw the key back into the car so I can do things like exit momentarily and keep the air conditioning going. I also don't trust that the car won't then lock itself with the key and my child inside, so I also have to remember to roll down the window.
Unwarranted worries. I keep the fob in my pocket all the time, the car will keep running without the fob. Also usually these systems have incar fob detection. Mine will refuse to lock if it senses the fob is inside the car.
That doesn’t make sense. You can’t lock the car if your key is inside?
So a bad person can just open your door and attack you because you can’t lock your door when your key is inside?
My Camry has incar fob detection and I can definitely lock the car while the fob is inside.
It won't let you press the button on the handle to lock it if the key is inside and you're not, prevents you from locking the keys in the car, mine does the same, the car will beep 3 times if I try to lock it from outside while the key is inside.
If you're also inside, you just press the lock button in the car and it'll lock just fine.
I meant lock the car from the outside, using the door handle.
>> throw the key back into the car so I can do things
Isn't it the same for old style key, but with even more actions? Like to navigate a keyhole, turn the key...
It’s convenient. If I want to keep the AC on when I exit, I push the button for that before I get out.
It’s especially nice when the key is my phone. I never have to worry about keys. I just get in my car and drive, and when I arrive I get out. I keep a key card in my wallet as a backup in case my phone explodes.
There's a huge value feature, I can keep the "key" in my pocket or bag or whatever and I don't have to fetch it out. Plus the "key" can be a phone or other device.
Adding in a stick of metal that can be trivially bypassed does nothing to make the car more secure.
Automotive ignitions barring a few stupid setups in the 90s like the Jeep XJ (which was laughably easy to steal, but it was Chrysler and AMC so you can just expect certain levels of incompetence and shit design) have been much more than just a simple cut key. Going back to even the 80s, GM had a mostly excellent simple theft deterrent in the keys (a special resistor whose value the ECM knew, called passkeys) that made it harder than just brute forcing the ignition cylinder. It honestly made stealing someone's thirdgen or corvette a lot harder. Keys with things like fobs have evolved since and on a car with a real key made since the vast majority of this sites userbase was probably born is going to take some real specific smarts and work if you need both a physical key and whatever additional security the manufacturer has cooked into the fob. You really need an immobilizer system that requires both a transponder and a correct cut key for the security on the car to be decent.
> Adding in a stick of metal that can be trivially bypassed does nothing to make the car more secure.
Everyone can use a flipper zero to unlock a car. Not everyone can hotwire a car. Keyless ignition means criminals have a vastly larger recruitment pool of people they can offer money to do something stupid (like stealing a car for them).
I've never seen anything but problems with keyless ignitions. It really seems like a solution in search of a problem no one actually had, and makes the car much more irritating. I guess it's in line with the whole remove real controls and buttons crap because "muh software", "muh reprogrammable interfaces" etc that certain nerds think is a good idea for who knows what reason.
disagree, if you mean simple cut key. a screwdriver defeats it.
ok, if you mean a key that has a chip embedded, where the key cuts are just window dressing and the real magic is still in cryptographic proof of "something you have". i am not aware of any such key ever being produced, but i certainly do not have comprehensive knowledge. GM had something close to that.
Immobilizers (which lock out the engine until there's been some authorization from another device, i.e. from a chip in the key) have been mandatory in cars in the UK at least (and I would presume Europe on similar time scales) for almost 30 years (from 1998). Seems they've been sold in cars for a few years longer than that (from 1992). According to: https://www.carwow.co.uk/guides/glossary/what-is-a-car-immob....
Maybe never introduced into the US market? Would find that hard to believe.
I’m pretty sure most cars in the later key era used some sort of chip verification on ignition for the key. It wasn’t just a physical thing. Given it was 15 years ago, I don’t know how cryptographic the proof was - perhaps it was just reading a number from the key. But the hyper short range nature of it made it quite secure.
Unfortunately that video is lots of talking and little substance, so it's hard to properly evaluate it. From the little info shown there it just looks like a nice repackaging of the old rolling flaws (https://github.com/jamisonderek/flipper-zero-tutorials/tree/...)
I sometimes imagine how much of this could be avoided if the communication signals weren't (a) broadcast or (b) a imperceptible to humans.
If it an electrical contact in the door handle, it would be very difficult for anyone to monitor or inject other signals.
If the signals were audible sound, you'd know when someone was jamming it.
In practice, my number one use of a fob from a remote distance is locking, rather than unlocking, and those two operations don't have the equivalent security risk.
>If the signals were audible sound, you'd know when someone was jamming it.
This would be very popular in East Asia. They love everything that beeps. Rice cookers play a melody, pedestrian crossings play a melody, garbage trucks play a melody. Japan is the country of beeps.
> In practice, my number one use of a fob from a remote distance is locking, rather than unlocking, and those two operations don't have the equivalent security risk.
Wouldn't the risk be the same if the same rolling code keys was used for both locking and unlocking?
I would be surprised if automotive manufacturers used separate rolling code keys for locking and unlocking.
> Wouldn't the risk be the same if the same rolling code keys was used for both locking and unlocking?
Yes, what I meant is that such symmetry is not strictly required, and breaking the symmetry opens up ways to enhance security (of unlocking when you arrive) while keeping most of the convenience (of locking while leaving.)
For example, imagine "Lock" is a typical broadcast from anywhere within X meters, but "Unlock" requires touching the fob to an infrared port, and they use independent codes.
Peugeot used to have infrared keys. Several people who thought their central locking was glitchy have been surprised to learn that pointing the key at the side window makes it work every time.
Can’t wait for ignorant politicians to ban flipper zero completely instead of accepting the reality that car keyfobs are insecure
AFAIK Flipper Zero is open source, so anyone with tiny bit of electronics experience can recreate it. There's no way to ban it from criminals.
Exactly, but this reality doesn’t stop politicians stop blame flipper zero itself. See this link for Canadian government’s ban: https://blog.flipper.net/response-to-canadian-government/
> For this new attack to work, all that is needed is a single button-press capture from the keyfob, without any jamming. Just from that single capture, it is able to emulate all the keyfob's functions, including lock, unlock, and unlock trunk.
If I don't press the buttons on my keyfob am I safe from this?
The only keyfob functionality I normally use is that when it is outside the car but within about a meter of the door handle the door can be locked or unlocked by pressing a button on the door handle.
If you keep your car key close enough to your front door, it's possible to relay the signal that the key is constantly broadcasting closer to the car, allowing an attacker to hit the button on the handle and unlock it without posesssing the key.
As I understand there's still challenge/response stuff going on when you use a physical key or similar means to unlock the car or start the ignition (as that is how the alarm system and immobiliser distinguish a real key from someone picking the lock or hotwiring the car).
I don't know the details of the attack in the article, but my speculation would be that it would be vulnerable.
That's an interesting question. Unless that feature uses NFC or some other protocol, I'd think you're still susceptible.
AFAIK it should be a different system because the car asks the key first (same system as Keyless GO).
> A consequence of this is that the original keyfob gets out of sync, and will no longer function.
I always wonder about this: what is the consequence of that? Can the user reset it, or does it have to be done by a retailer or something?
Depends on the implementation. Most times you just have to click it a few times in a row. The receiver then realizes it missed a few button presses and it re-syncs. I’m not sure what that window is though, at some point it might get so out of sync that the receiver ignores it and assumes it is a wrong fob.
If I remember correctly the size of the rolling window differs, more modern vehicles may allow about 100 code discrepancy before ignoring the transmitter, while old models might have been 5 to 10.
If the attack causes the original key to no longer work, imo the major threat vector is someone sitting in a parking lot, capturing key presses, performing the attack, and forcing the user to tow+re-program the key as a nuisance, rather than stealing the vehicle
On what car do you _need_ the remote to enter and drive the car (having tow the only alternative to e.g. the remote battery dying)? In all cars I have used, you could just use the physical key if the remote failed.
My wife certainly doesn't know how to unlock and start the car without the "keyless" function. Every time the fob runs out of battery, she needs step by step instructions otherwise she's stuck there. She uses and sometimes programs SQL and API calls at work, but knows next to nothing about cars.
In addition to being able to break in and steal anything that’s kept in the car
One don't need any keys or other equipment for that. Glass is really fragile unless armored with foil.
Capture the lock as they walk into a store.
Take the car while they are in the store.
I'm not sure this attack allows starting the car itself.
Even more nefarious is preventing the victim from using their vehicle as a refuge or escape from a dangerous situation such as an attempted murder or kidnapping.
Why don't cars use public key crypto? Is it too expensive to run on a key?
Probably power-wise, yeah. Most keys only have little coin batteries and people want those to last for years.
I have a "smart" BMW car key and it inhales the battery. I don't think it can go more than a couple of weeks without having to be charged.
For the past 20 or 30 years, my insurer made car theft insurance conditional on having an immobilizer device installed that requires code entry through a physical keyboard.
And there were a few years this seemed onerous, but most of the time, there were popular attack in use by car thieves that were prevented (or at least made much longer and more complicated) by this.
This seems difficult when you can order a Ford fleet key off Amazon and get access to most Ford trucks and vans for about $15.
I guess this attack is against the keeloq protocol. There are no known total breakage of this kind AFAIK, against the cryptography implemented in the chip. This will be interesting to understand, I mean: what they are exactly doing here.
A protocol that makes sense would be: mTLS. But. Guess what these fobs do not do? Something that makes sense.
And passkeys. Don't forget passkeys. Trivially to implement in some kB of ROM. /s
You jest but there's no reason to stick with twenty year old component restrictions in a car that costs forty grand.
The real cost will be in the software validation and road safety hardening, but there's no reason why the ROM size should be limited to kilobytes.
You can implement full passkey cryptography on a basic esp32 (https://github.com/polhenarejos/pico-fido). Cut out the cruft and you can definitely get a similarly secure algorithm on an actual car key or key receiver.
And honestly, with cars now unlocking over Bluetooth and WiFi, standardising that process to something like FIDO wouldn't even be that awful of an idea. It certainly beats the "we can do cryptography at home" many car manufacturers seem to be going for.
ESP32 won't work 5 years from cell battery. My Dacia key does. Embedded hardware is limited not just because someone wants to save bytes, but because someone wants to save joules (and PCB size).
Kind of insane that this works... Surely whoever implemented this knew it was insecure? I honestly wouldn't have thought to check for this vulnerability because... who would do that??
I don't think the word "secure" was ever part of the discussion on keyless entry for cars. They would have used something like "convenience". Secure would maybe be considered in that the car doors are now locked from the keyless. But as far as "secure" being used in regards to the transmission/receiving of the wireless signal? I doubt if it was ever mentioned by anyone other than PR.
It definitely was because they used to not even use rolling codes. Rolling codes were specifically created to prevent replay attacks, and then they somehow thought "oh but if you replay two keys we'll accept them". Insane. They must have just hoped nobody would even think to try that because it's so ludicrous.
Why are so many car manufacturers incapable of using cryptography properly?
Car manufacturers are like automation/control manufacturers; they existed before cybersecurity and never caught up to the pace. If you ever audited any SCADA system, you will see nightmares. For cars, some new models of popular brands (not specifying any), you can access the CANbus from the headlight where you can reprogram the ECM to your new key. It's that simple to "own" a modern car.
PREACH!
Currently sitting in a control room at a greenfield manufacturing facility trying to describe why even VLANning the control network would be a good idea to some controls engineers who want a plant-wide subnet for all PLCs that will be remotely supported by 6 different vendors. The struggle is real
Loosely aware a controller manufacturer who wanted a bluetooth/wifi based password recovery utility with a fixed or predictable recovery key.
They were asked what their exposure would be if someone walked into a datacenter and used their phone to disable all the airconditioning systems.
Do they want the passwords for all their systems to match so they don't need to remember as many?
My suspicion is that they want all the passwords on this site to match the one they use with all their other customers too.
Saves money on password management.
> It's that simple to "own" a modern car.
On the other hand, it's been a great excuse for a hobby project with 12V relays and learning how to write code for an ESP32. :P
I still haven't yet figured out which CAN-bus to tap and which undocumented byte-messages to interpret... but entering the Konami Code on the steering wheel to unlock the ignition is quite plausible. Or an NFC/RFID tag over a hidden reader, or an active bluetooth connection to my phone, etc.
Whatever the case, quite enough to stop the average thief that would target a cheaper vehicle like my own. You could also skip the ESP32, and have a purely analog switch tucked away.
>but entering the Konami Code on the steering wheel to unlock the ignition is quite plausible.
The left, right, left, right part I can see, but surely up, up, down, down, would be difficult on most steering wheels :)
What about media controls? My steering wheel anyway has up and down buttons for skip songs
I've seen one-manufacturer, 2024 models at least, which requires two keys in range, before a third key may be programmed.
Good idea, don't know how effective it is in reality.
Needing two keys for a third one is not new. My 25 year old car needs two keys for adding the third, old Fiats has “red master” keys which are also required during adding keys.
Honda/Acura/Toyota have used similar systems for years; this is one of the reasons why cloning a key costs less flagged hours than making a new one for an owner that lost all of them : when you lose all of them you need to get the actual computer out and pair it with the ecm directly, when you clone them there is a ritual that can be done with the other keys+ the new one.
> ritual
I cannot think of a better word to describe the process. The ritual may involve some chanting. Thank you for that :D
Ceremony like what is done for the DNS root signing.
Man wish we could copy that key onto smartphone (Apple needs to add flipper zero's tech to iPhone) for easy keyless access.
That's common, and it's often a bit stricter. E.g. my Ford Lightning has a pocket you have to put the fob into for this kind of activity. For certain things you need both fobs, so you do one, and then the other, as part of a sequence in the programming. Just being in range isn't good enough.
Proper security is a total pain in the ass, and makes things nigh impossible to use in the manner people want to use them. This naturally makes things more expensive to recover from oopsies.
This is why YubiKeys will only ever work for people technical enough to understand them. Normies will loose it at the first chance, and then be locked out of everything. At that point, YubiKeys will be banned by Congress from all of the people writing in demanding something be done about their own inabilities to not be an ID10T
As far as car security is affected, "normies" really don't care what the algorithm is. The entire UX is "press button to open car, go to dealership if you need new key" and it allows a wide variety of choices re algorithms.
The only reason they use KeeLoq (with whopping 32 bits of security!) instead of something normal, like I dunno, AES-128 or something, is because they are trying to save $0.50 in parts on the item they sell for $100. Oh, and because they don't like any change and don't have organizational ability to use anything recent, like other poster says.
> The entire UX is "press button to open car, go to dealership if you need new key"
Ironically proper security in this case would likely improve the user experience as well. The car provides a 64 bit (or larger) secret value and you manually program a standardized fob with it. No need for custom parts that are only available from the dealer.
I wonder if it's less about the cost of silicon, and more about the energy budget for a device that uses a button-cell battery.
Even if it's a problem with off-the-shelf stuff, I imagine a car-manufacturer could easily get something all nice and tiny and special-purpose.
The encryption only needs to happen when button is pressed, and I am pretty sure the radio energy consumption will be much higher that CPU one.
Airtags transmit much more frequently than car remotes, use similar batteries, and yet do proper security.
Modern keyfobs keep listening and transmitting all the time, as you no longer need to push a button. Just get close enough to the car and it opens.
A terrible "feature", since it means someone can steal your car just by relaying the signal from outside your home at night, or an accomplice walking near you as you're entering the grocery store, etc.
I've become a big believer in leveraging some security features of the physical world, as it seems it's been long enough that everyone's forgetting Therac-25-style problems. (Or, perhaps more accurately, nobody cares because they aren't liable.)
It's not as bad.
Modern keyfobs actually detect motion and if they are motionless for a while, they stop transmitting the signal to both save battery and prevent such attacks.
For old keyfobs, you can get a battery sleeve with integrated motion sensor which does the same (cuts power when fob is not in motion for a while).
Alternatively, some cars let you disable the feature and just use the keyfob as you would use an older one - then you habe to push the button anytime you want to unlock the car.
> (with whopping 32 bits of security!)
Ha! DVDs at least had 48 bits. /s
Proper security doesn't need to be perfect security. In the case of car manufacturers, most of their fob implementations are borderline negligent.
You're right. Sometimes I get tired of typing my sudo passwords and wish there was a faster way. Biometrics are not bad.
It really depends on the way biometrics are implemented. If you're doing it Apple style, where a dedicated chip validates biometrics and uses encryption and signatures to prove to the OS that the user is who the say they are, they're as good and trustworthy as the software you're running on them (which in the case of macOS for instance requires full trust).
If you're doing the "fingerprints implemented as a webcam" or software based facial recognition from a shitty webcam, you're risking quick and easy bypasses. Still good enough for a computer you leave at home (as long as you don't need to protect yourself against shady law enforcement) but definitely not that secure.
From what I've been able to gather online, nobody but Apple and phone manufactures seem to care much about actually doing biometrics securely, including the biometrics hardware companies. It's such a shame because it's definitely possible to do better.
You can ask this question about almost every non-software company. Hell, you can ask this question about most software companies.
The real question is "why are most people and companies incapable of using cryptography properly?"; and the answer is that doing cryptography right is hard, especially if your use case isn't a common one.
The reason these vulnerabilities affect many brands is because they don’t use cryptography. They buy these electronics from other suppliers.
To some degree customers love it. It allows you to program your own replacement key without having to go through the manufacturer or an official dealer.
No doubt they would charge $100 or more for just clicking a button and having the equivalent of an NFC writer.
Well they don't call them stealerships for nothing.
I wonder who make more money on this. The car dealer or the manufacturer.
When my favorite quadruped knocked my keys into the trash I had to get my car towed to the dealer for them to program me a new key. One one hand, top notch security as it was impossible to do any other way. On the other hand the total to get this done was something like $500 after everything.
I did this to myself by placing my keys in a pocket of a bag that I've never used before when returning to the airport parking. I found the keys in the bag after paying to have it re-keyed after paying for the tow from the airport to the closest dealer.
This is totally something I'd do. I'm very organized when I travel for work and everything has a place. If I absentmindedly slip something into the wrong part of my bag, it might as well be invisible..
I'm a great example of "for someone supposed to be smart, you do the dumbest things"
Haha, I heard this a lot growing up. And now I have kids of my own..
Get a bluetooth tracker (Apple Air Tag, Samsung Smart Tag or the generic Google Find My compatible one for other Android devices), set it up with your phone and attach it to your car keys.
Then anytime you misplace your keys, you can look at a map on your phone and it will show you where to go.
Yeah, big +1 on this tip. I have AirTags on my bags themselves as well as some other things. Don't have them on my key fob, but you may have inspired me to attach one haha.
The map thing when you're nearby and it goes into the sonar-like mode is super cool. Especially combined with the ping noise.
You can have strong cryptography + ability to self-pair. See bluetooth or wifi or zigbee or many other technologies..
Maybe the car manufacturers should just give up and adopt BTLE. Proper security, and you could unlock with your phone.
What does? The article is very unclear about what exactly this does.
The attacks to rolling code keys are well known but these keys continue to exist. They allow you to pair a key yourself to the car that you buy online. Particularly in the US it's quite common that people buy used cars and then another key online that they pair themselves.
You won't be able to do this for instance with VAG cars that have KESSY. First of all the immobilizer is paired to the key, secondly the only way to pair a new key to it is via the manufacturer or a licensed dealership because you need a blob from their central server. But the consequence is that people feel like they are being fleeced when they need another key, because it can cost you hundreds of dollars to pair one.
In general these types of attacks are much harder in Europe where immobilizers have a legal minimum standard that manufacturers have to meet. On the other hand in the US immobilizer are entirely optional, which has famously led to KIA and Hyundai cars shipping without them and the Kia Boys TikTok phenomenon.
But the attack claims to not need access to the car to initiate any kind of pairing sequence...
Yes. With rolling codes this vulnerability and similar ones are known for a very long time.
Seems to be from 2022. I wouldn't say that is "a very long time".
> But the consequence is that people feel like they are being fleeced when they need another key, because it can cost you hundreds of dollars to pair one.
Because the ARE being fleeced. It's an artificial dependency on the vendor on the one hand versus a blatantly insecure approach on the other.
Secure pairing that can be done by the end user isn't rocket science.
It is a bit rocket science because cars stand around. The CAN bus can even be externally accessed if you pop open the right part of the car (common fault are adaptive headlights). It is not as trivial as people make it out to be because cars violate one of the most important principles of having good security: no physical access.
It is trivial:
1. Initiate pairing via the entertainment system interface.
2. Use rolling codes. Don't allow rewinding the codes.
3. Add a tiny tiny bit of non-volatile memory in the keys so that batteries can be changed without breaking the key. This is only necessary if the car can't be entered using the physical key, otherwise the user can just open the car with the physical key, turn on the ignition and re-pair the key.
I could make a secure system to do this and I'm no crypto genius. (Note this would still be vulnerable to rolljam but that's not a very practical attack, and defeating that is a bit difficult.)
To support car hire/share places if they want to prevent users pairing new keys you could allow setting a password on the pairing interface.
That has nothing to do with secure pairing. It's an entirely orthogonal concern. Any sensitive system on a vehicle is going to be subject to the same thing.
I don't think anyone will be surprised if the security is swiss cheese once you pop the hood open or bust a headlight out. Keep in mind that a brick to the window and tearing up the center console will get you physical access to the head unit on most vehicles.
It's not like the systems they used for physical keys were ever very robust either.
Cryptography is actually difficult for the requirements of a key fob.
The principle issue is that requiring two way communication greatly increases hardware cost and lowers range/reliability. You also would prefer to minimize or eliminate any volitile storage on the devices.
Also you very much want to absolutely minimize the data sent, both for battery life and range/reliability reasons.
And whatever volatile storage the devices have you need to have some way of handling it being reset when its lost due to a dead battery or replaced device.
So standard replay resistant protocols like "door sends a random challenge, fob signs/decrypts/encrypts it and sends the result" are excluded due to the two-way requirement.
The next obvious set is along the lines of "device sends an encrypted counter, door enforces that the counter only goes up" requires nonvol storage in both devices, and then gets tripped up when the fobs counter goes back down due to being reset. (also harder to implement multiple fobs, as they each need unique state).
Agree about the requirements but disagree that it's difficult.
Two way communication and a few KiB of nonvolatile storage on the fob shouldn't be a deal breaker when an ESP32 dev board runs under $10 (an ESP32 being massive overkill for the described use case).
The device sending an encrypted counter is also trivially easy. There's no reason a modern vehicle can't store hundreds (or thousands, or tens of thousands ...) of { u64 fob_id, u64 fob_key, u64 fob_counter } triplets. Push it up to 128 bits if you're paranoid, it won't have a meaningful impact on resource usage.
Case in point regarding the car storing state, the (broken) rolling window algorithm they use requires that the car track the window and accept presses that are out of sync by a decently wide margin. That's likely more complicated and resource intensive than simply enforcing that the nonce only ever goes up.
The rational conclusion is that the manufacturers are either incompetent or malicious. I firmly conclude the latter given that the fobs they offer that are actually secure introduce vendor lock in and a charge to replace a key.
If only almost everyone carried a computer with a radio and local storage and a good battery with them almost everywhere
with a battery life of two years? and durable against going through the washing machine?
If you want simplicity and ruggedness we should never have moved away from steel keys.
Very few keys are made of steel. Brass is the most common material.
The problem with brass is that it wears away and the small shavings of metal gunks up the lock mechanism.
Mercedes used steel keys to avoid this.
> Cryptography is actually difficult for the requirements of a key fob.
No, it's not.
> The next obvious set is along the lines of "device sends an encrypted counter, door enforces that the counter only goes up"
That's already how rolling codes work. Running a strong crypto algorithm (even Ascon/Speck would be fine here) requires negligible power.
The issue is that this system is still susceptible to jam+replay attack. An attacker can jam the transmitter signal, while recording it at the same time. The user assumes that the button press just didn't register and tries again. The attacker also jams this and records the code. But then the attacker replays the _previous_ code that they stored, keeping the latest code for their future use.
This can _also_ be fixed with a simple capacitor-powered timer circuitry, charged during the keypress. The device can stay completely inert at all other times.
They're not. There is AFAIK an ssh key infrastructure for OnStar that's modern and well-run, for example.
Things like key fobs are most likely very incremental changes on "this is the way we've always done it". These organizations are behemoths and steer with all of the inertia of a containership.
And tend to get stuck in their ways like a container ship stuck in the suez canal
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Like when just putting in a usb-A anything into the steering column and letting the car drive away? Nah man, no one will figure it out. We're good. Our backdoors are the best
You can be sure that this attack has been well known to intelligence agencies for a while.
Who needs an attack when you've got backdoors and secret courts?
¿Por que no los dos?
Cool, I was planning to get a spare car key, not anymore!
Also, glad I have one before they would ban it. It’s a neat tool that I have everything I want there, instead of having 4 fobs, one garage remote, plenty of IR remotes, it’s AIO. Plus I don’t have to pay fees to replace my lost fobs
Sadly, it won't work as an extra key, because it causes the original key to stop working.
Welp, that’s a bummer! Have you tried it?
It says in the article
In that case, it mostly will be used in a bad way.
Yeah, by "researchers".
Perhaps I should start using Bluetooth and the mobile app instead...
So I guess it's back to locking the door manually before I close it, and being absolutely sure I don't leave the keys in the car.
Why isn't a link to the repo/firmware the first link in the article?
Most likely because it's made up.
Am I the only one that just hates push to start in every way? Sure, I don't need to have the "insert key and crank" to be real, but physical key seems so superior.
Feels like getting rid of the light switches in your house in favor of "smart home" stuff.
I liked my old 'rolla that I could start with any key at all.. or even a paddlepop stick.
Every time I start thinking about these little modern inconveniences, I re-arrive at the idea that this is yet another example of the difference between a product and a tool.
A product ideally works the same for everyone, with as little friction to the immediate function as possible. All other functions are hidden or deleted. Trying to use a product as a tool is slow and frustrating, because the experience never gets better than the first time you use it.
A tool on the other hand needs learning. Sometimes that learning curve is shallow and long, like a hammer, or steep and long like CAD.
Smart home stuff can be pretty great if you treat it like a tool, and only use it where it is the right tool for the job (so, not light switches).
Anyway, I prefer tools.
You mean the key and crank that could be started with a screwdriver and some elbow grease?
I guess you have a Kia. Most cars made in the past 20 years have keys with immobilizer chips.
I mean, keep using your key if you like it. I for one love never having to touch my car keys. I touch my door handle the car unlocks, I touch the start button the car starts.
I'm on the other of the spectrum apparently, I'm annoyed that I even have to carry a key/fob. I'd rather have a fingerprint sensor or something, with the key as a backup (i.e. when I let some borrow it).
I also have a smart home ;)
I also dislike it when people "fix" things that are not broken.
You're not the only one.
Also, smart people wire their smart home so that the light switches still work. If a smart home controller or some other part of the system fails, people still want to be able to control the lights manually.
Is there a cheap device you can make yourself or buy from India? Flipper zero is not easy if not impossible to buy.
For this project let's say
Jokes on them, I lost my key fob years ago.
cool, I needed a new car, thanks
Pretty sure you want an old car to avoid this one. A bicycle would also avoid it.
Unless you're my son who has to buy a new bicycle lock every month because he loses his bike keys.
Tile Pro and AirTag on the keys, and probably on the bike too.
AirTags require people having iphones. Tile requires people with the app. I've lost things with both these items on them and never saw a ping from them ever again.
Well, yeah, there are limitations to everything. They're not going to work on stolen devices when they're overtly advertised in cutesy keyfob holders that say "throw me away first". Use your brain because you have to disguise them on some objects.
AirTags and Tile Pro work fine wherever there are other people. They're not going to work in the Atacama.
They worked fine every time I used them. I recently sent a laptop to France and included one of each. Sometimes the Tile pinged and sometimes the AirTag pinged, but they worked really well across continents.
I also have about 4 of each in a vehicle left unattended for a while in a parking garage that doesn't have a great deal of people around it. And all of them ping at least once a day. The Tile Pros have ~100m LoS range which are quite a bit more than previous ones from years ago.
I dropped one on a keychain on a sidewalk. It never pinged. That was an AirTag.
The other was the time I left my car keys on top of my car. Someone took the keys and put them in a random nearby business’s lost and found. The tile never pinged over the course of days and I had to find it the old fashioned way.
These things never worked for me, but it’s good to know that mail delivery people use these apps/devices that will let you track your packages in realtime.
I didn't realize I dropped AirPod Pros in a case with an AirTag. I watched them bounce around inside an unoccupied Google building like it was picked up by Google's security people. Then, I watched it commute to a residential area of a smaller town. The defunded local police wouldn't even possibly look into it until 48 hours later and only if they wanted to, and the smaller town police wouldn't do anything. It pinged for a day or two afterwards like someone had thrown it into a/their neighbor's trash can.
Lesson: Don't lose shit.
Get your son a key ring with a chain and make him attach it to his bag or his pants somewhere.
Combo lock
Walking also would avoid it. Bicycles produce brake dust!
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What practical use does this have? From my reading if I capture an unlock signal, the car will not unlock for the owner, so they’ll press their remote a few times.
If I capture a lock signal, presumably I can instead prevent it from locking. The only real world malicious action I can see is being viable is to block the car lock, meaning the car is still in an unlocked state, open the boot (which I’m guessing can be done from the car dash anyway) then locking it afterwards?
This attack lets you use all the functions of the key fob, and not just the action captured.
It makes no suggestion that it’s possible to start a push-to-start car.
Someone looking to break into your car will probably use a brick, not a flipper zero.
Bricks attract lots of attention in busy parking lots. An unlock chirp, removing some bags, and walking off will appear legitimate to bystanders.
Its flipper zero performing this
https://i.blackhat.com/USA-22/Thursday/US-22-Csikor-RollBack...
Suggests that it can be used to start a car. Whether it was a fob start or push start isnt specified.
which slide suggests this? i didnt find anything suggesting you could start a car with rollback