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I have heard the term "decompiling" used a few times before, and I am starting to get very curious about how it works.

I have a very general idea of how it works; reverse engineering an application to see what functions it uses, but I don't know much beyond that.

I have also heard the term "disassembler", what is the difference between a disassembler and a decompiler?

So to sum up my question(s): What exactly is involved in the process of decompiling something? How is it usually done? How complicated/easy of a processes is it? can it produce the exact code? And what is the difference between a decompiler, and a disassembler?

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possible duplicate of What is a de-compiler how does it work? – Greg Bacon Apr 25 '12 at 19:42
up vote 14 down vote accepted

One of the greatest decompilers that is here now is definitely Hex-Rays Decompiler. If you want to see, what it can output, take a look at http://www.hex-rays.com/products/decompiler/compare_vs_disassembly.shtml.

Its author, Ilfak Guilfanov, gave a speech about the internal working of his decompiler at some con, and here is the white paper: http://www.hex-rays.com/products/ida/support/ppt/decompilers_and_beyond_white_paper.pdf and a presentation here: http://www.hex-rays.com/products/ida/support/ppt/decompilers_and_beyond.ppt This describes a nice overview in what are all the difficulties in building a decompiler and how to make it all work.

Apart from that, there are some quite old papers, e.g. the classical PhD thesis of Cristina Cifuentes at here: http://itee.uq.edu.au/~cristina/dcc.html#thesis

As for the complexity, all the "decompiling" stuff depends on the language and runtime of the binary. For example decompiling .NET and Java is considered "done", as there are available free decompilers, that have a very high succeed ratio (they produce the original source). But that is caused by the very specific nature of the virtual machines that these runtimes use.

As for truly compiled languages, like C, C++, Obj-C, Delphi, Pascal, ... the task get much more complicated. Read the above papers for details.

what is the difference between a disassembler and a decompiler?

When you have a binary program (executable, DLL library, ...), it consists of processor instructions. The language of these instructions is called assembly (or assembler). In a binary, these instructions are binary encoded, so that the processor can directly execute them. A disassembler takes this binary code and translates it into a text representation. This translation is usually 1-to-1, meaning one instruction is shown as one line of text. This task is complex, but straightforward, the program just needs to know all the different instructions and how they are represented in a binary.

On the other hand, a decompiler does a much harder task. It takes either the binary code or the disassembler output (which is basically the same, because it's 1-to-1) and produces high-level code. Let me show you an example. Say we have this C function:

int twotimes(int a) {
    return a * 2;

When you compile it, the compiler first generates and assembly file for that function, it might look something like this:

    SHL EAX, 1

(the first line is just a label and not a real instruction, SHL does a shift-left operation, which does a quick multiply by two, RET means that the function is done). In the result binary, it looks like this:

08 6A CF 45 37 1A

(I made that up, not real binary instructions). Now you know, that a disassembler takes you from the binary form to the assembly form. A decompiler takes you to the C code (or some other higher-level language).

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Decompiling is essentially the reverse of compiling. That is - taking the object code (binary) and trying to recreate the source code from it.

Decompilation depends on artefacts being left in the object code which can be used to ascertain the structure of the source code.

With C/C++ there isn't much left to help the decompilation process so it's very difficult. However with Java and C# and other languages which target virtual machines, it can be easier to decompile because the language leaves many more hints within the object code.

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BTW, you can get some information about decompiler work here enter link description here There is online version of decompiler (for PowerPC processor), that get assembler code at the notation of IDA Pro. But service has options "make intermediate representation", that generates following:

  • Input code (text)
  • Abstract Syntex of source code (tree)
  • Call graph in BasicBlock form (graph)
  • Metainformations, thats was restored during decompilation:
    • Call graph in Framed BasicBlock form (graph)
    • DataFlow of register's values (graph)
    • DataFlow of variable's values (graph)
    • DataFlow of expression's dependences (graph)
  • Nassi-Shneiderman diagram (tree+graph)
  • Structured Nassi-Shneiderman diagram (tree+graph)
  • Optimized Nassi-Shneiderman diagram (tree+graph)
  • Source code description as Algorithm (some like decompilation)
  • some other...

You can use this service for experimentation and understanding of decompilers.

BTW. Disassembler: binary machine code -> assembler text Decompiler: assembler text -> version of source at the high-level language (c,c++, extension of c, etc.)

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