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how to write a simple decompiler for Java language? what are the steps of it?i don't know how to start! thanks.

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closed as not a real question by Andrew Barber Mar 25 '13 at 8:45

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

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Write a Java compiler first. Then reverse the process. –  Filip Ekberg Mar 1 '11 at 20:51
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learn the instruction set of the thing you want to decompile, and learn it well... –  Thorbjørn Ravn Andersen Mar 1 '11 at 20:54
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+1 for re-opening. Maybe the wording of the question is not the best one, but I believe it's still a valid question - 'how are decompilers constructed?', 'how to write a simple decompiler for xyz language?', 'what are the steps of decompilation process?' - pick your choice, re-open and edit. –  Grzegorz Oledzki Mar 1 '11 at 20:54
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@Grezgorz, We first need to know what the OP wants. –  Filip Ekberg Mar 1 '11 at 20:56
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@Filip, hmm. For unknown reasons (homework, fun, learning, whatever) the OP wants to write a decompiler of an existing language. Probably the language has already been chosen, but not revealed. Seriously I don't see what's the problem here. –  Grzegorz Oledzki Mar 1 '11 at 21:04

3 Answers 3

From An Empirical Evaluation of Java Bytecode Decompiler Eectiveness (PDF) by James Hamilton.

The problems to be solved by a general decompiler [Emmerik(2007)] can be divided into different categories :

  1. separation of code from data
  2. separation of pointers from constants
  3. separation of original and oset pointers
  4. declaration of data
  5. recovery of parameters and returns
  6. analysis of indirect jumps and calls
  7. type analysis
  8. merging of instructions
  9. structure of loops and conditionals

The decompilation of machine code requires all 9 of these tasks to be solved whereas the decompilation of Java bytecode requires only 3 of these tasks to be solved due to the amount of information stored in a class file. A fourth problem caused by exceptions and synchronisation stems from their implementation using arbitrary control flow and possibly overlapping exception handlers.

Decompiling Java bytecode requires analysis of most local variable types, merging of stack-based instructions and structuring of loops and conditionals. Java bytecode retains type information for fields, method returns and parameters but it does not contain type information for local variables. This information encoded in the class file makes the task of type inference easier compared to decompilation of machine code.

* steps relevant to Java, emphasis mine.

The paper gives a good overview of the technical problems you'll need to deal with, as well as a good rundown of currently available tools.

Depending on how robust you want to be, you want to test against the output of as many compilers and obfuscators as possible. Becoming familiar with obfuscators and optimizers (like Proguard) and their techniques will only help you.

Resources

Get familiar with the Java Virtual Machine Specification, as you'll be referring to it a lot.

There are also various books on decompiling java, including Decompiling Java and Covert Java

Examples

JODE is an older open source decompiler (which still gets very high marks in its evaluations) which you can learn a lot from.

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Disclaimer: I haven't tried to write a decompiler, but this is what my thoughts would be if I was given such a task...

First of all, one needs to understand what a decompiler is. As already suggested in some comments, a decompiler is something opposite to a compiler. Namely it takes a compiled executable and transforms it back to the source code in some programming language. Further reading: Wikipedia about Decompilers.

If you focus on writing a decompiler for Java language, then you probably already know how does the compiled code of Java programming language typically look like. That is, it's been built on a concept of byte code. In short words, a bytecode is an artificial assembly-like language which is portable (i.e. isn't necessarily tailored to suite a particular hardware platform). In Java the compiled code is stored as .class files. More reading: Wikipedia about Bytecode, Sun documentation on .class file format.

Before you start it's important to realize that not only is the task of writing a decompiler an extremely complicated one (like every other program of this scale), but one has to cope with limitations or restrictions implied by the compilation process. Don't forget the compilation process (the one takes the source code and turns it into runnable bytecode) loses and transforms some information. So one cannot expect it to be possible to create a decompiler which would give the original source code. The output of a decompiler will most likely be less human-readable

Then, as suggested in some other comment, you would like to basically reverse most of the typical steps of a compiler (which is a different story). For compilers there are tons of materials available everywhere (see Learning to write a compiler). For decompilers there's not that much, but still I believe you may find some articles - as suggested in other answers.

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First you will need to learn Java bytecode. The documentation (PDF) of ASM is a good source for that. The Java Virtual Machine Specification and a JVM opcode reference will also be useful (I found this one - do you know other better opcode references?).

Then you can begin exploring that what kind of bytecode the Java compiler produces for different constructs in Java source files. After you know that, you might have a chance of reversing the process. (ASM or BCEL can be used to read and manipulate the bytecode, though that's the least one of your worries.)

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