We have a .NET 3.5 application with registered extensions. How can we protect it against DLL Hijacking attacks?

Because of legacy & design problems strong naming/signing is not an option right now

Extra Information if you don't know what DLL Hijacking is:

  • 18
    Because of the design strong naming/signing is not an option - well then your design makes the assemblies vulnerable to DLL Hijacking. Sep 18, 2010 at 13:20
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    What kind of design would that be, not allowing signed or strongly named assemblies? Sep 18, 2010 at 13:22
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    Jim it's a bad design, legacy reason, plugin system problems etc. Like a million other real-world applications out there.
    – Robert Shu
    Sep 18, 2010 at 13:41
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    Darin, there are lots of C/C++ application which protects themselves without signing/strong naming so strong naming or signing is not mandatory. If you don't know the answer you don't have to comment.
    – Robert Shu
    Sep 18, 2010 at 13:42
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    Are you talking about protecting against malicious attacks on an installed instance of your application on a client computer? If so, then it really doesn't matter if your assembly is signed or not. The entire application can be decompiled with ildasm whether signed or not and any protection you place in there can be removed and then the app can be recompiled. The same is true for signed assemblies. Assembly signing is not a security measure. Apr 19, 2012 at 23:16

6 Answers 6


I had came across similar issue, I had ended up writing my own logic for verifying the dll. For me I was just using that dll in LGPL fashion (I can't modify the dll), but wanted to make sure that my application uses the genuine dll (not the hi-jacked one).

Simple solution:

  • While developing the application create MD5 Checksum of the dll and hardcode the hash in the application
  • Everytime you start the application use the same logic to generate the MD5 Checksum of the dll file and compare it with the hardcoded one.
  • You might be already aware but here is how to efficiently generate the Checksum of a file (see answer: https://stackoverflow.com/a/1177744/392850)

Better solution:

  • Generate hash of the dll, with strong Hashing algorithm and salt
  • Generate RSA key value pair (private key and public key)
  • Encrypt the hash of the dll with your private key
  • Embed the public key, "encrypted hash" and salt in your application
  • Upon application start, decrypt the "encrypted hash" with your public key
  • Generate the Hash again at runtime with the same salt, and compare with the hash decrypted using the public key

If you have any certificate from trusted CA like verisign, you can use that certificate instead of using RSA key value pair.

This way even if someone replaces your dll with cracked dll, the hash will not match and your application will know the Hijacking attempt.

This approach could is better than only giving dll a strong name because, may be strong name verification can be disabled by running

SN -Vr HijackedAssembly

Hope this helps you, or someone who wants to understand how digital signature things work internally.

  • This technique actually is against the nature of LGPL. LGPL requires that any dll loaded must be replaceable by the user with their own version of dlls, exception is if the whole project itself is under the (L)GPL.
    – mlehmk
    Mar 25, 2015 at 15:34
  • Good point @mlehmk, you are right, as per LGPL v3 section 4.d.1, LGPL library should be replaceable by the user. But as per that same section, as far as we provide mechanism for user to replace the LGPL library we should be fine. This question was about DLL Hijacking so I didn't go in to license intricacies.
    – Vishalgiri
    Mar 31, 2015 at 21:59

Have a look at this thread....it might help you and give you insight....another thing, you can certainly check out EasyHook, and intercept the API createRemoteThread and find out if the DLL is one of the unauthorized ones.... have a look at this thread that explains how to block against dll injection


Couldn't you include the dll as a resource and write it out to where you want at run time then load the dll into the assembly? I did this once because we wanted to distribute as one .exe but I think it would also solve this problem, wouldn't it?



In fairness to Jim's question about "what kind of design would that be". By answering, instead of just saying "it is what it is" you could give us insight into the constraints our suggestions/solutions must fall within.

Put another way, without knowing why the legacy code prevents you from doing it the "right way" it's hard to provide ideal workarounds to your problem.

Unless your architecture prevents the MD5 checksum idea suggested by Vishalgiri, I'd suggest taking his advice. Again though, without knowing what application(s) call these DLLs and why they can't be signed, it's hard to know if this will work for you.

My idea might be a lot simpler, but can you not adjust your application to preload the DLL from a predefined location? For example, only allow it to load from the BIN folder of your main applicaton, and failing that - never try again?

See this link on how to load from a distinct path: http://www.chilkatsoft.com/p/p_502.asp

This may be faster than writing all the MD5 checksum code. Even though I like that idea as well.


If your application is meant to be obfuscated, merging the DLL with the EXE first using ILMerge before obfuscation would provide absolute protection against DLL hijacking and also eliminates unused code and gives you a standalone EXE.


If you have folder/data access priveledges, you could write code to proactively go and look in the same places Windows looks for your .DLL prior to calling your own .DLL (or search the whole drive), and you could compute a CRC check for your legit DLL, or other pattern match to compare your legit.DLL on located, matching DLL files, and thus make sure no one else has hijacked you (placed a file in a location that would be searched prior to your own location - or even any location). This could take some research into the methodology under different versions of Windows for the various orders of searches. Then, if you find a hijacking attempt, you could take some action, depending on how sure you are that someone is trying to hijack your DLL... Rename the faker.DLL, delete it, notify the user, notify admin, don't call your DLL, etc.

  • 2
    CRC was not designed with security in mind, it's not the right tool for the job. Something like SHA would be much better.
    – svick
    May 3, 2012 at 11:58

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