Because .NET is designed to be self-descriptive, using an obfuscator will only hinder their progress. Although decompilers will have reduced readability, anyone understanding MSIL will have a better chance. Even C++ applications will be decompilable at some stage, as the program ultimately gets executed step by step in memory. C++ applications will take longer to work it out, but if a hacker knows Assembler (which they probably would if they are decompiling your application to gain access to the algorithm), its just a matter of time.
Obfuscation is really to make it as difficult as possible in a reasonable timespan, rather than making it impossible. The same principal lies with encryption. Encryption isn't impossible to break, it just takes so long that the context may not be of any use in 70-80 years time.
There are 2 alternatives I can think of apart from the ones covered here:
- Host the algorithm at a remote location
- Host the algorithm in a hardware component - very very expensive
The first option would be more suited if you have a network connection available. The processing is done on a separate server and the algorithm is not exposed to the public. This is how activation codes work nowadays. A serial code of some sort is generated, encrypted with a public key encryption and sent to a source which will decrypt and validate the data. The response is also encrypted and sent back.
Also, digitally signing your application and your dependencies will also assist as hackers could not plug-in components very easily. If they tried to use a DLL in place of one of your old ones (to fake a call to a service and return "success"), your code would check the digital signature before using the DLL.
So in summary, obfuscating will slow down the process but not prevent it. The only way I can think of is to host that algorithm at a secure location and send requests to it. Yes there is the problem of the hosting scenario, DoS etc, but your algorithm is protected, which is what you wanted.