You can use standard RSA or DSA signature algorithms to do what you want. For C#, these are standard algorithms built into the runtime. For Delphi, you have some choices. See Encryption library for Delphi.
Once you have chosen an encryption library for Delphi, you can now do the following:
- The C# server signs the user's e-mail address and date using the chosen signature algorithm with your private key.
- The Delphi client verifies the license using the same signature algorithm.
- Once the Delphi client knows the signature is valid, you can then test the e-mail address / date and decide whether or not to allow your program to run.
I have done exactly the kind of signature verification you want/need using the DSA algorithm, LockBox, and C#.
One thing to be aware of is that C# encryption uses big-endian numbers, while LockBox / Windows CryptoAPI uses little-endian numbers. This probably means you need to reverse endian-ness of both the public key variables and the signature itself before sending it to the Delphi client for verification. Check your crypto library documentation.
One last note: others have proposed using symmetric encryption algorithms like AES / 3DES / etc. The problem with this approach is that your "secret" encryption key is shared between server and client. It is possible that someone could recover the key by reverse-engineering your compiled EXE and then create a "key generator" - a worst-case scenario being a fake activation server that passes out "authentic" encrypted licenses. By using assymetric crypto and keeping the private key secret, you won't have this problem. Users would have to crack every new version of your EXE or else pass around signed authentic licenses - much more inconvenient.