The problem isn't erasing a byte array. You can erase a byte array. The problem is for example that the GC of .NET could have moved the byte array during the defrag phase, so there is a phantom copy of your array somewhere in memory. You could solve this by pinning the array so that it isn't moved by the GC. This could solve the
However, the tactic used in order to achieve key erasure is likely ineffective, due to the
limitations of the Go’s garbage collection-based memory management model1
but it won't solve the
Furthermore, it does not attempt to target residual values, such as intermediate
computations, which thus may remain in memory.
When you do public key crypto, you must do many big-number math operations. The intermediate results are somewhere. A library securely written should handle all these intermediate results as securely as the initial values (symmetric encryption is often easier: the common algorithms can work directly in the buffer that will be used for the output). But you must write the library in this way :-)
And all these things won't really protect you. If an external process has access to the memory of your process, it can continuously check around until it finds the keys... Before or later your keys will be in memory plainly unencrypted. For this reason in the end the .NET
SecureString is not-the-final-solution: https://github.com/dotnet/platform-compat/blob/master/docs/DE0001.md
It just makes the window getting the plain text shorter; it doesn't fully prevent it as .NET still has to convert the string to a plain text representation.
A real solution must exist at the OS level, or even better at the OS plus processor level. Protected memory that can only be read by a single process, or even better is write-only and all the encryption is done at the OS/Processor level (a trojan could inject itself in your process otherwise)
In the end the only really good solution is probably an Hardware Security Module:
A hardware security module (HSM) is a physical computing device that safeguards and manages digital keys, performs encryption and decryption functions for digital signatures, strong authentication and other cryptographic functions. These modules traditionally come in the form of a plug-in card or an external device that attaches directly to a computer or network server.
But then we are going outside the scope of "how can I securely program my application or my library". We are outsorcing the problem.