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8 ways to protect and obfuscate your dot net code
1. 8 Ways To Protect And Obfuscate Your .Net
Code Against Reverse-Engineering Using
Crypto Obfuscator
Introduction
Most non-.Net compilers emit binary programs containing native CPU instructions which are
very hard to disassemble, decompile and reverse-engineer. However, all .Net compilers such as
C#, VB.Net, Managed C++, IronPyhton, etc emit compiled programs in MSIL (Microsoft
Intermediate Language) format. This format preserves a lot of high-level information about your
software such as class, field, method, property and parameter names and even the actual code in
a well-defined structure. This has facilitated the development of many decompilers and
dissassemblers which can extract this information from a .Net assembly. Some tools can even
reconstruct the actual structure of your code including loops, if statements, method calls, etc.
Needless to say, this means that an unprotected .Net assembly is an easy target for hackers,
crackers or competitors who can easily reverse-engineer your .Net code from the compiled
assembly. They can easily glean valuable trade secrets, algorithms, sensitive information such as
passwords, SQL queries, etc stored in strings, or even try to find security vulnerabilities and
change product functionality.
Obfuscation & Protection Techniques
All is not lost however as there exist various methods and techniques which makes it extremely
difficult for a hacker, cracker or competitor to reverse-engineer your application. Crypto
Obfuscator makes use of the following advanced and sophisticated obfuscation and protection
techniques:
Symbol Renaming
Crypto Obfuscator renames the names of the classes, methods, properties, fields, events, etc in
your .Net assembly to a garbled unintelligible name. Depending on the symbol renaming scheme
chosen, this will result in either very long or very short names which have no relation to the
original names. The original names cannot be derived or guessed from the obfuscated names.
Since meaningful names are the most powerful ally when reverse-engineering a software, this
makes it very hard to determine the purpose and function of the renamed entity.
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Advanced Overload Renaming
Crypto Obfuscator renames fields or methods with different signatures to the same name. For
example two fields having types int and boolean will be given the same name. Similarly two
methods will different parameters will be given the same name. In the case of methods, the
method return type is also used in the signature even though high-level languages such as C# and
VB.Net do not support overloading by return type. The .Net runtime is able to differentiate
between the fields/methods without any problem since the signatures are different. Needless to
say, this scheme makes it even harder to reverse-engineer your code.
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3. Method Call Hiding
Crypto Obfuscator can hide calls to methods and properties from external assemblies such as
those from the .Net framework. In addition, it can also do the same for unrenamed methods and
properties from the assemblies which are being obfuscated. This provides very strong
obfuscation and makes it impossible to determine when, where and how such methods and
properties are used.
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String Encryption
4. .Net assemblies contain all the literal strings used in your code in plain view for anybody to see.
Literal strings often contain sensitive information such as login information, passwords, SQL
queries, algorithm parameters. In addition, they also help in reverse-engineering your .Net code
by providing a marker. For example, someone wanting to remove license checking from your
software will search for all instances of strings like "license" or 'valid" or "invalid". Once they
have found such strings, they will examine the surrounding code to see if it is the licensing
checking code and if so, remove or disable it. Crypto Obfuscator solves all these issues by
encrypting all literal strings in your .Net code.
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Advanced Tamper Detection
Crypto Obfuscator can perform strong name verification of the assembly itself even if strong-
name verification has been turned OFF on the machine on which the assembly is running or if
the assembly has been registered in the verification 'skip-list' - this is typically done by hackers
or crackers. Furthermore, the strong name verification is done using the original key used to sign
the assembly when it was processed by Crypto Obfuscator. Thus, strong name verification fails
even if the key is removed or replaced - again something typically done by hackers or crackers.
Control Flow Obfuscation
In .Net assemblies, even the code is stored in a well structured manner using a published format.
This enables a sufficiently advanced decompiler to reconstruct to a pretty accurate degree the
exact structure of your code including the for/while loops, if statements, try-catch blocks, etc.
When doing control flow obfuscation on your code, Crypto Obfuscator changes the structure of
your code into spaghetti code while maintaining 100% the logic and output of the code. The
result is that decompilers are unable to reconstruct your code and output incorrect or garbage
code. Most of the times they crash while trying to do so. This provides powerful method body
protection for your software.
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ILDASM Suppression
ILDASM (Microsoft IL Dissassembler) is a free tool to disassembly any .Net assembly into
MSIL (Microsoft Intermediate Language) and extract the entire contents including the classes,
methods, code and resources from the assembly. Crypto Obfuscator can modify the assembly in
such a way that ILDASM refuses to disassemble the assembly.
Anti-Reflection Protection
6. Many decompilers, dissassemblers and memory dumpers use .Net Reflection mechanism to
extract information about a .Net assembly. Crypto Obfuscator can modify the assembly in such a
way that such tools will fail when trying to work on your assembly.
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Anti-Decompiler Protection
Advanced decompilers such as the freely available .Net Reflector are your enemy in the battle
against the hackers, crackers and competitors. Crypto Obfuscator can modify your assembly in
such a way that such tools fail to work on your assembly - many times they are not even able to
open your assembly, let alone examine it.
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Resource Encryption
Tools such as ILDASM, .Net Reflector and others can easily extract resources from your
assembly. Such resources often contain valuable, sensitive or copyrighted information such as
7. images, UI (WPF baml files), textual content, etc. Crypto Obfuscator can hide and encrypt all
such resources so that it is impossible to see them, let alone extract them from the assembly.
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Assembly Encryption
Crypto Obfuscator can encrypt all dependant assemblies and any additional assemblies used by
your software. This makes it impossible for someone to get their hands on individual assemblies.
You can use this feature to your advantage by separating all sensitive or important code and data
in a dependant assembly. In fact, this can be taken to an extreme - simply put ALL your
code/data in a separate assembly and use a shell assembly as a starter/loader assembly for your
application.
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Conclusion
8. Each of the above techniques on their own are pretty powerful and effective against hackers,
crackers and competitors. When combined and used together for the obfuscation and code
protection of your .Net assembly, they form an impenetrable shield which is extremely difficult
to break. Even if broken into by the most expert of hands, all they will see are garbage, encrypted
or obfuscated code, names and data.
Crypto Obfuscator arms .Net developers with a powerful code protection and obfuscation tool
which enable them to deploy their .Net software without fear of IP theft, reverse-engineering,
hacking, cracking and piracy.