As opposed to what? Encrypt them with a key that’s stored elsewhere on the device? Without user prompting (which any malicious app could also do, of course) storing these keys encrypted is very hard. You could use whatever key chain API your platform provides, but that’s just plain text passwords with extra steps. On Windows and Linux it wouldn’t improve security in any way, on macOS it might also not (I don’t know how Keychain access is done on macOS but I doubt it’s impossible to get the key from there if you have local file execution).
Desktop applications aren’t sandboxed, and the ones that are will only be protected against other sandboxed applications. I’m not sure if encrypting local message databases protects anyone in practice. It just adds half an hour of chatgpt aided programing to the job of the malware devs while the users lose access to their own data.
Wow that is actually pretty egregious for such a generally security-conscious organization.
Aside from needing a passkey/passphrase every time you open Signal, what would be the solution? If the user can read the unencrypted messages, then so can malware running as the user.
Heck, even if you required some sort of authentication to open the messages, malware could just capture that.
It’s the same problem with browser credential stealing, you can grab all the cookies from an authenticated browser session and copy it to a new system.
Really, the biggest issue is that Signal doesn’t detect multiple instances running of the same session, but that’s also extremely difficult to do without malware being able to work around it.
Not saying there’s no solution here, but there is not a simple solution aside from trusting your computer and cancelling sessions if you suspect someone compromised your system (or just not using a desktop app.)
malware could just capture that
From the article:
This means that while a keylogger might require admin access to install, any app or script with sufficient permissions could access these plaintext keys.
Malware to capture input would require privilege escalation as well, whereas this just requires being able to run code/copy files.
there is not a simple solution
But there are:
- use the system keyring
- store unencrypted key in memory in a background process (I.e. DIY keyring)
Essentially, force malware to either copy keystrokes or memory, both of which require admin privileges on most systems.
Storing the encryption keys in the Credentials Manager (Windows) or the Keychain (macOS, Linux) would be a better choice than a plaintext file.
And using Bitlocker / VeraCrypt / Filevault / LUKS will at least protect the data at rest.
But as you said, it’s game over if the machine is compromised.
It’s right there in the article. Local keychain.
What keychain exactly?
On Macs, there is a ‘keychain’ where certificates and passwords are stored encrypted, and there are OS-level controls on access – either an OS prompt for a password, or biometric authentication.
Agreed. If your system is compromised you have other issues and ultimately that falls on you. And on Linux you could very well set permissions yourself for those directories.
This is such a non story
Doesn’t… doesn’t then OpenSSH client store keys in text files?
I’m trying to figure out how this is an issue, other than maybe Signal should be using an OS level keystore.
Time to switch to matrix
You come to expect better but then you can only roll your eyes and face-palm when even “the best” do something this stupid.
To be fair it’s on your own device, not the server.