23andMe Blames Users for Recent Data Breach as It’s Hit With Dozens of Lawsuits::Plus: Russia hacks surveillance cameras as new details emerge of its attack on a Ukrainian telecom, a Google contractor pays for videos of kids to train AI, and more.
23andMe Blames Users for Recent Data Breach as It’s Hit With Dozens of Lawsuits::Plus: Russia hacks surveillance cameras as new details emerge of its attack on a Ukrainian telecom, a Google contractor pays for videos of kids to train AI, and more.
They had accurate credentials. They didn’t hit a login wall because people were re-using their passwords. They hit a login-wall for people who didn’t re-use their passwords. They got accurate credentials from an unrelated hack, from people re-using passwords. How many times does a system “block” you when you have the right username and password the first time?? Zero, I’m pretty fucksure.
(Also, it’s usually more like three attempts.)
I am very confused at what people think computers are supposed to do when given the correct login information? The point of login information is to prove who you are. If you have the correct information, the computer cannot know who is behind the keyboard.
On this point, I agree. 23andMe seems to now as well, considering they just rolled out required MFA for all their users. However, we live in a world basically zero data privacy laws in the US. The US can’t even fucking pass a budget, so good luck waiting on privacy laws. You want that kind of consideration, you gotta move to Europe.
Like 23andMe, companies don’t really care until something has already happened, since there isn’t legislation forcing them to care.
Finally, phone 2FA is garbage that can be intercepted. It shouldn’t be used. The fact that it’s still the default means this won’t be the end of data breaches. People need to embrace security keys like YubiKey.
I get asked to prove I’m making a legit login attempt all the time because it’s from a new IP address. 23andMe could have implemented something similar, and given the sensitive nature of the data they host and given how we all know that people can’t be trusted to have good password hygiene, I think they should have been required to do so.
IMO this whole thing is just more proof that we need better regulation around how companies treat users’ private information.
Did you miss the part where our government can’t even pass a budget, but you’re expecting them to pass laws like this?
Also, IP spoofing exists and is relatively easy.
You can’t spoof your IP address because of the TCP handshake. You could proxy your traffic to appear from coming from a different IP address than from the computers making the requests. This would still be identified as suspicious because the proxy IP address would differ from an IP address a user had logged in from before.
Even if the “hackers” knew every user’s IP address, they would not be able to establish a connection with it appearing from an IP address that didn’t really initiate the traffic.
Perhaps a better question would be to ask why they are allowing 14k separate logins from (what was probably) the same IP address? If you ask any big email provider, they will tell you they immediately shut down any access from that IP due to suspicious behavior, while simultaneously resetting the passwords of all the accounts that appear to be compromised. Typically you should have records of the IPs used for previous logins so it’s fairly simple to compare records having suspicious activity and see if the accounts in question had any previous relationships with each other. And once you have that information on hand you can use it to monitor the compromised accounts for any further login attempts by unknown IPs and then block THOSE addresses as well.
When you have that many active user accounts, you do not just settle for simply accepting the correct credentials.
You are aware that IP spoofing exists? It’s not impossible for the hacker to have appeared to have been connecting from many different connections.
Yes I am, as I’m sure you are aware that IP spoofing is pretty much only relevant where you are sending outgoing packets (like in a DDoS attack) and do not expect to receive any information back. If you need two-way communication over TCP, spoofing doesn’t work because the returned information naturally gets routed back to the host of the real IP and not to the spoofed address. Obviously these attackers received some information back.