I believe you can make it harder to break, but not with an interface.
Here's what you do:
You need 2 + n projects: one for the exe (let's call it program.exe), one for the contracts (contracts.dll), and one for each of your n plugins (plugin.dll).
program.exe has a hard reference to contracts.dll, as does plugin.dll.
Sign all of them with a strong name key. See http://msdn.microsoft.com/en-us/library/xc31ft41.aspx
Instead of an interface ILicenceQueryProvider, create a sealed class LicenceQueryProvider in contracts.dll. Make sure it has no public constructors, only an internal one, and no methods to modify the object (initialized on construction, immutable and with readonly fields).
Mark contracts.dll with an InternalsVisibleToAttribute, granting program.exe access to the internal constructor. See http://msdn.microsoft.com/en-us/library/System.Runtime.CompilerServices.InternalsVisibleToAttribute.aspx
This way, program.exe can call the constructor on this object, and plugin.dll can read from it.
plugin.dll "knows" the object class has not been modified because of the strong name signature. And because it's sealed, a man in the middle cannot substitute in another implementation.
Now remember I said you can make it much harder to break, but it is not impossible and will never be, especially if you're using managed code.
For example, a man in the middle can use reflection to instantiate the object with the internal constructor.
Even worse, in your plugin there is code that reads from this object, and makes a decision based on licence information. A hacker can decompile your plugin.dll to IL, and replace that code with code that always grants all privileges.
Obfuscation would help just a little bit, but not against the reflection attack. Native code would make it somewhat more difficult, but native code can be patched too.
Ultimately, the code is on the hacker's machine, and the hacker can do what he wants. He can even run it under a debugger, and modify the data in memory. This is the problem that all copy protection and licencing mechanisms face. In my opinion, licences make it harder on your clients to use your software, and will not stop a determined hacker. Do you (or your company) want to make it hard on your clients to use your software?
Now this doesn't mean there is no solution. In fact there is: a hacker cannot modify code that is not on his machine. Have the code run on a server under your control. The client app accesses it through a web service. The web service authenticates the user (not the calling code, that is impossible). Knowing the user, the service can validate the user's licence. This is the only solution.
Just to be clear: such a service needs to run the actual code that has value for the user, not just a licence check. In the latter case, a hacker could modify the client to simply not mke the call, or even substitute a fake licence server. However, the assumption is that a licence is cheaper than it is to recreate the actual logic living in the service. In that case, even hackers will prefer to buy over recreating the code.