Obligatory https://neal.fun/password-game/
Well, that’ll teach you to actually take care of your pets and not just dump their food in front of them and be done with it.
(fuck paul tho fr)
Nooo! The fireeee! This would be better with a physical keyboard.
Link for compatibilityMy final password was: Pass5@JulyXXXV+Shell+n2by7+droop+🌚+Peru+2020+Qd7+🥚+Zn+BBBBB
The hardest 2 were chess and guessing the country. Maybe atomic numbers with combination with roman numerals, but that’s sorta fine.
That’s where I got derailed on my best run. Chess was easy the first time and maddening the next two.
Ah I was just copying the URL to post the same thing. It’s such a fun game to go through, although I gave up pretty quickly
Tried it again, made it to the chess step
One of my coworkers got super into it and got into the high 20s I made an off-hand comment about wondering what it does for rule 34 and he responded “gasp I must know!” Then a couple days later messages me a screenshot on teams. Spoiler: it goes “ehhh let’s just skip this rule”
Use lichess.org’s board editor
You’re telling me I didn’t need to use my brain?
You’re on programmer humor, we don’t do “Brain” here.
This game made me so angry haha
I closed my laptop when it asked for the Wordle of the day.
Enter the same thing 5 times and you’re good for the day :)
Infuriating fact: if a service has maximum password length limits (lower than 1000 characters), they’re reversibly storing your password and if they’re that lazy it’s probably plain text
reversibly?
Yeah, you actually better not save the users passwords in plain text or in an encrypted way it could be decrypted. You rather save a (salted) hashed string of the password. When a user logs in you compare the hashed value of the password the user typed in against the hashed value in your database.
What is hashed? Think of it like a crossfoot of a number:
Let’s say you have a number 69: It’s crossfoot is (6+9) 15. But if someone steals this crossfoot they can’t know the original number it’s coming from. It could be 78 or 87.
Dumb question: isn’t it irrelevant for the malicous party if it’s 78 or 87 per your example, because the login only checks the hash anyway? Won’t both numbers succesfully login?
It’s actually a really good question. What you’re explaining is called a collision, by creating the same hash with different numbers you can succesfully login.
This why some standard hashing function become deprecated and are replaced when someone finds a collision. MD5, which was used a lot to hash passwords or files, is considered insecure because of all the collisions people could find.
In the example yes.
In the real world, finding an input that produces the right hash output isn’t easy. And because a lot of users reuse passwords (don’t do it, but people do), a list of emails and passwords gives you an incredibly lazy and easy to do way to compromise accounts on other sites.
Reminds me of a funny moment in my IT internship, ahead of an audit one of the sysadmins came over and was saying “yeah so I pulled all of the department password hashes to check for weak/compromised accounts and noticed one person has the same sysadmin and user password hash” and my boss went “wait everyone doesn’t do that?” And after realizing they outed themselves turned bright red and changed their admin password
With a hash it’s difficult to find a combination that results in this specific hashed password. Think of it like this: you have a biiig prime number and you multiply it by another. Now, that’s easy, but it’s way harder to do it backwards - factorize a large composite number (this is just for illustration). Similarly trying to find a password that works when you input it based on the hashed one is way more difficult than hashing the password in the first place.
Additional to what others have said: The “salted” part is very relevant for storing.
There aren’t soooo many different hashing algorithms people use. So, let’s simplify the hashing again with the crossfoot example.
Let’s say, 60% of websites use this one algorithm (crossfoot) for storing your password, and someone steals the password “hashes” (and the login / email). I could ran a program that creates me a list of all possible crossfoots for all numbers for 1 to 100000.
This would give me an easy lookup table for finding the “real” number behind those hashes. (Those tables exists. Look up “rainbow tables”)
Buuuut what if I use a little bit of salt (and pepper pepper pepper) before doing my hashing / crossfooting?
Let’s use the pw “69” again and use a salt with a random number “420” and add them all together:
6 + 9 + 420 = 435
This hash wouldn’t be in my previous mentioned lookup table. Use different salts for every user and at least the lookup problem isn’t such a big problem anymore.
This was super helpful 🙏🏼 sent me down a whole other rabbit hole of learning
i was more wondering why a length limit implies anything about how they’re storing the password. once they receive the password they’re free to hash it any which way they want
random memory—yahoo back in the day used to hash the password in the browser before sending it to the server, but TLS made that unnecessary i guess
In the least bad case, they encrypt the password instead of hashing it, making it possible to decrypt the password.
In the most common case, they store the password in plaintext, so there isn’t even any encryption to be reversed.
They may just base their limit on one or a few block sizes of the hash function.
That sounds incredibly unlikely. I would be good money that 99% of password length limits are not based on concrete limits. Things like “100 should be enough 🤷” must be way more common.
I doubt 1% of programmers are away of their hashes block size. It is also probably irrelevant since after the first round everything is fixed size anyways.
Nope. No point in storing > 256 or even 128 chars for a password anyway. Useless storage wasted. Also it doesn’t really mean they store the password badly in the server.
A hashed password is always the same length though is it not?
The length limit is mostly for the user’s sake - companies don’t want people to set their passwords to 30+ character ones that they keep forgetting and call their tech support to reset.
That’s really really really annoying, as someone who has a good, strong brain-based password algorithm and hates it when websites forbid my strong password forcing me to make an exception.
Ignoring that they must be hashed to be acceptable and that it’s not possible for 1000 characters of text to add up to a waste of storage worth mentioning in pretty much any environment, it’s literally impossible for a 128 character password limit to be beneficial in any way.
A limit below that demonstrably lowers security by a huge margin.
Ok but are 15 characters too much?
I’ve seen 14-char limits, which are NOT reasonable
there is at least one bank that I know of with a 12 character limit
There’s a major bank in Australia that limited passwords to six characters. Exactly six. No more, no less. The passwords were also case-insensitive.
Yikes, how do banks, of all things, have such low password limits…
Couldn’t it just be that they’re using something like bcrypt which won’t take any chars above its limit into account (knowing that there’s a limit will pretty much never matter to a user but why obscure the fact)? What does it even mean to store it reversibly, just because they have a char limit doesn’t mean they are encrypting the password, could just be some frontend shenannigans as well.
I share your frustration, especially when the maximum password length limit is outrageously low, but they do serve a purpose.
Fun fact: Lemmy instances cap at 60. they’re not storing reversibly, they’re just using bcrypt and rather than pre-hashing the pw before bcrypt like most bcrypt users do, they just truncate to 60.
60 makes sense, 14 does not
Best practice in 2023 is a simple, sufficiently long but memorable passphrase. Excessive requirements mean users just create weak passwords with patterns.
[Capital letter]basic word(number){special character}
Enforcing password changes doesnt help either. It just creates further patterns. The vast majority of compromised credentials are used immediately or within a short time frame anyway. Changing the password 2 months later isnt going to help and passwords like July2023!, which are common, are weak to begin with.
A non expiring, long, easily remembered passphase like
forgetting-spaghetti-toad-box
Is much more secure than a short password with enforced complexity requirements.Drop “memorable”. 99.9% of your passwords should be managed by your password manager and don’t need to be memorized. On one or two passwords that you actually need to type (like your computer login) need to be memorable.
99.9% of your passwords should be managed by your password manager
this looks like a sensible approach until you remember password managers can be cracked, too. I’m with GP on this, a passphrase is easier to remember and is good enough for most use cases, if you need more security you should be using some form or another of 2FA anyway
I am kinda paranoid about password managers. My passwords are stored somewhere on the computer, all of them, and I don’t like that idea. I can exercise my brain.
I have 350 items in my BW vault. I am not memorizing that many passwords, I’d rather use my brain for something else.
I encourage you to think critically about this and re-evaluate your decision. I would say that for at least 99.99% of people a password manager is significantly more secure overall.
- Browser-integrated password managers will avoid filling your password into the wrong site. This is a great barrier to phishing.
- Allows a unique password per-site which greatly mitigates the problem of password leaks which are fairly common.
- Allows you to use much stronger passwords than you can memorize.
- It’s quite convenient to just click “login”.
For most people phishing is a far bigger risk than some malware stealing their local password databases. To make database theft even less of a concern most password managers have the option to encrypt the local database file. This means that to steal your passwords the malware will need to extract the encryption key from the password manager process which can often be configured to forget the key quickly after the last use.
Also consider that if you have malware that can steal your password database and the encryption key it can probably just keylog all your passwords or steal your browser’s cookie jar. So the extra barrier here is minimal.
I think you are right to be suspicious of having a vault of passwords “ready to steal” but in practice the upsides far outweigh the downsides, especially if you make a security-focused choice of password manager.
I’ve been using keepassxc for a while now and it’s better than most other options, everything is stored locally and encrypted behind a master password.
All you micht want to do is make a backup of your vault onto an external drive (best practice would be encrypted via the options you have, I use luks because I’m a Linux nerd).
Agreed. Have my password database backed up over multiple places, GPG encrypted of-coarse, you can never be too safe.
I’m in the same boat at this point, partly just because I’m not sure how I want to partition things and if the software will work together the way I want.
I assume password managers themselves store things encrypted until you unlock them with whatever master password.
I’ve got 1601 logins and 86 secure notes in my Bitwarden vault… no way I’m memorizing all of that lol
forgetting-spaghetti-toad-box
I don’t know much about PW security but would a passphrase of common words not be more susceptible to dictionary attacks?
The idea is that entropy is measured with possible words instead of possible characters. It turns out 7 7-bit ascii characters have less entropy than 4 14-bit equivalent words (that is, the 16,384 most common ones). And that’s in the ideal case it’s a totally random 7 characters.
Every attack is technically a dictionary attack here, but it doesn’t help enough because the password to a computer is still 30 characters long. To a human it seems a lot easier than ")f1:.{yJCzNv]@R=S K$~=", though.
PS. Turning /dev/random output into 7-bit ascii characters is surprisingly involved in Haskell. C would have been easier. This was the world’s slowest ninja edit.
Thanks for the explanation, I remember the explanation in https://xkcd.com/936/ but wasn’t sure how that held up for different attack methods.
I don’t get why some sites limit your usage of special characters and have miniscule max lengths?? looking at you PayPal you piece of shit
“This password would take 1 century to crack!”
There was a website where I was making an account and it was like: no semicolons.
To this day I wonder if that was how they blocked sql injection.
Escaping by obstruction ^^
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“Password is already used by user
potatoeater420
, please choose a different password.”Knowing that it’s already in use is.
Basically all of these constraints are bad practice, though. It’s obviously better to have a long, complex password, and not to reuse passwords between sites, but if you make shit impossible for people to remember they’re going to write it down, and a lot of people don’t use password managers (or use shared devices where they aren’t possible).
Length limits (that aren’t like 1000 characters) are unconditionally terrible practice. It means your password is probably plain text, because hashes don’t really care or take meaningfully longer based on the length of the input.
A string of (random) words is a perfectly fine password. There’s an xkcd I’m too lazy to get demonstrating it, but it genuinely does add enough randomness to break brute force.
A string of (random) words is a perfectly fine password. There’s an xkcd I’m too lazy to get demonstrating it, but it genuinely does add enough randomness to break brute force.
Here’s the xkcd.
The only security threat would be the site itself. How do they know other users have the same password?
Options:
-
They have your password in plain text in their DB. CHEFF KISS
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They aren’t using salts.
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They are using the same salt for everyone.
All of them concerning.
-
Then, please give us your phone number for 2fa, instead of letting you use a more secure app
The right answer is use a password manager to generate and store a long password. Then it doesn’t matter.
If for some reason you want a secure password and aren’t using a password manager https://www.grc.com/passwords.htm
Does anyone use the generator from chrome anymore? Like a 2023 password for me is “suggest strong password”…
“password must contain a PUA codepoint”
Remides me of https://neal.fun/password-game/
That was my immediate though too!
Fuck that shit, just give me the password
This is a repost :)
Are we really starting this shit here?
Everything on the internet is a repost. Calling it out adds nothing worthwhile to the conversation and just derails any conversation.
Yeah but when you see the same 5 posts every month it gets tiring. If the other post was in a different place though, then it’s not a repost
If I’ve ever seen the same post 5 times, it was in a day or two and it was a new and exciting thing for some people so everybody would post it and the same time.
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And?
I dont know how to make a crosspost in the app