Newer password hashing algorithms have ways of combatting this. For example, argon2 will use a large amount of memory and CPU and can be tuned for execution time. So theoretically you could configure it to take 0.5 seconds per hash calculation and use 1 GB or more of ram. That’s going to be extremely difficult to bruteforce 8 characters.
The trade-off is it will take a second or two to login each time, but if you’ve got some secondary pin system in place for frequent reauthentication, it can be a pretty good setup.
Another disadvantage is the algorithm effectively gets less secure the less powerful your local device is. Calculating that same 0.5s hash on a beefy server vs your phone could make it take way longer or even impossible without enough ram.
Unfortunately, it’s rare that we can control what hashing algorithm is being used to secure the passwords we enter. I merely pray that any account that also holds my credit card data or other important information isn’t using MD5. Some companies still don’t take cybersecurity seriously.
Storing credit card data has its own set of strict security rules that need to be followed. It’s also the credit card company’s problem, not yours, as long as you dispute any fraudulent charges early enough.
I’m coming at this from the perspective of a developer. A user can always use a longer password (and you should), but it’s technically possible to make an 8 character password secure, thus the NIST recommend minimum.
Newer password hashing algorithms have ways of combatting this. For example, argon2 will use a large amount of memory and CPU and can be tuned for execution time. So theoretically you could configure it to take 0.5 seconds per hash calculation and use 1 GB or more of ram. That’s going to be extremely difficult to bruteforce 8 characters.
The trade-off is it will take a second or two to login each time, but if you’ve got some secondary pin system in place for frequent reauthentication, it can be a pretty good setup.
Another disadvantage is the algorithm effectively gets less secure the less powerful your local device is. Calculating that same 0.5s hash on a beefy server vs your phone could make it take way longer or even impossible without enough ram.
Unfortunately, it’s rare that we can control what hashing algorithm is being used to secure the passwords we enter. I merely pray that any account that also holds my credit card data or other important information isn’t using MD5. Some companies still don’t take cybersecurity seriously.
Storing credit card data has its own set of strict security rules that need to be followed. It’s also the credit card company’s problem, not yours, as long as you dispute any fraudulent charges early enough.
I’m coming at this from the perspective of a developer. A user can always use a longer password (and you should), but it’s technically possible to make an 8 character password secure, thus the NIST recommend minimum.