I need to implement a simple node-locked licensing mechanism (i.e. the license needs to be valid only for a specific physical computer).
I intend to use an asymmetric cryptographic algorithm such as RSA.
Here is how I intend to organize the basic licensing "workflow":
- The application that needs to be licensed reads a piece of data that uniquely identifies the computer (it is currently running on). Let's call this data "computed ID".
- User requests the license by sending the computer ID.
- Based on the computer ID, the license is generated and protected (either by full encryption or by signing) and sent back to the user.
- The application can then compare the license with the actual computer ID and refuse to run if they do not match.
Note that computer ID will not be particularly sensitive (probably just a MAC address and possibly HD serial) and does not represent a secret on its own.
The dilemma I have is whether to:
- encrypt the computer ID (both in the license request and in the license itself),
- or to include it as a plain text (in both request and license) and just add a signature (in license).
(1) If I choose full encryption, then I'll need two pairs of public/private keys - one for each direction (one for encrypting the request and decrypting it before generating license; and one for encrypting the license and decrypting it by the application).
(2) If I choose to use signature, I just need one key par - private key for signing the license and public key for verifying the signature when application runs (so it knows the plain text computer ID in license did not change).
The approach (2) looks simpler to me, but is it as "strong" as (1)?
I'm implementing this in C#, but I'd like a general "high level" advice on pros and cons of each approach, regardless of the implementation details.